/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
 * Copyright (C) 2008 - 2009 Novell, Inc.
 * Copyright (C) 2008 - 2017 Red Hat, Inc.
 */

#include "libnm-core-impl/nm-default-libnm-core.h"

#include "libnm-core-intern/nm-keyfile-internal.h"

#include <stdlib.h>
#include <stdio.h>
#include <sys/stat.h>
#include <unistd.h>
#include <sys/types.h>
#include <arpa/inet.h>
#include <linux/pkt_sched.h>
#include <linux/if_ether.h>
#include <linux/if_infiniband.h>

#include "libnm-glib-aux/nm-uuid.h"
#include "libnm-glib-aux/nm-str-buf.h"
#include "libnm-glib-aux/nm-secret-utils.h"
#include "libnm-core-aux-intern/nm-common-macros.h"
#include "libnm-core-aux-intern/nm-libnm-core-utils.h"
#include "libnm-core-intern/nm-core-internal.h"
#include "nm-keyfile.h"
#include "nm-setting-private.h"
#include "nm-setting-user.h"
#include "nm-setting-ovs-external-ids.h"
#include "nm-setting-ovs-other-config.h"

#include "libnm-core-intern/nm-keyfile-utils.h"

#define ETHERNET_S390_OPTIONS_GROUP_NAME "ethernet-s390-options"

/* used for "ovs-external-ids.data" and "ovs-other-config.data". */
#define STRDICT_DATA_PREFIX "data."

/*****************************************************************************/

typedef struct _ParseInfoProperty ParseInfoProperty;

typedef struct {
    NMConnection        *connection;
    GKeyFile            *keyfile;
    const char          *base_dir;
    NMKeyfileReadHandler read_handler;
    void                *user_data;
    GError              *error;
    const char          *group;
    NMSetting           *setting;
} KeyfileReaderInfo;

typedef struct {
    NMConnection         *connection;
    GKeyFile             *keyfile;
    GError               *error;
    NMKeyfileWriteHandler write_handler;
    void                 *user_data;
} KeyfileWriterInfo;

/*****************************************************************************/

static void
_key_file_handler_data_init(NMKeyfileHandlerData *handler_data,
                            NMKeyfileHandlerType  handler_type,
                            const char           *kf_group_name,
                            const char           *kf_key,
                            NMSetting            *cur_setting,
                            const char           *cur_property,
                            GError              **p_error)
{
    nm_assert(handler_data);
    nm_assert(p_error && !*p_error);

    handler_data->type          = handler_type;
    handler_data->p_error       = p_error;
    handler_data->kf_group_name = kf_group_name;
    handler_data->kf_key        = kf_key;
    handler_data->cur_setting   = cur_setting;
    handler_data->cur_property  = cur_property;
}

static void
_key_file_handler_data_init_read(NMKeyfileHandlerData *handler_data,
                                 NMKeyfileHandlerType  handler_type,
                                 KeyfileReaderInfo    *info,
                                 const char           *kf_key,
                                 const char           *cur_property)
{
    _key_file_handler_data_init(handler_data,
                                handler_type,
                                info->group,
                                kf_key,
                                info->setting,
                                cur_property,
                                &info->error);
}

static void
_key_file_handler_data_init_write(NMKeyfileHandlerData *handler_data,
                                  NMKeyfileHandlerType  handler_type,
                                  KeyfileWriterInfo    *info,
                                  const char           *kf_group,
                                  const char           *kf_key,
                                  NMSetting            *cur_setting,
                                  const char           *cur_property)
{
    _key_file_handler_data_init(handler_data,
                                handler_type,
                                kf_group,
                                kf_key,
                                cur_setting,
                                cur_property,
                                &info->error);
}

/*****************************************************************************/

_nm_printf(5, 6) static void _read_handle_warn(KeyfileReaderInfo    *info,
                                               const char           *kf_key,
                                               const char           *cur_property,
                                               NMKeyfileWarnSeverity severity,
                                               const char           *fmt,
                                               ...)
{
    NMKeyfileHandlerData handler_data;

    _key_file_handler_data_init_read(&handler_data,
                                     NM_KEYFILE_HANDLER_TYPE_WARN,
                                     info,
                                     kf_key,
                                     cur_property);
    handler_data.warn = (NMKeyfileHandlerDataWarn) {
        .severity = severity,
        .message  = NULL,
        .fmt      = fmt,
    };

    va_start(handler_data.warn.ap, fmt);

    info->read_handler(info->keyfile,
                       info->connection,
                       NM_KEYFILE_HANDLER_TYPE_WARN,
                       &handler_data,
                       info->user_data);

    va_end(handler_data.warn.ap);

    g_free(handler_data.warn.message);
}

#define read_handle_warn(arg_info, arg_kf_key, arg_property_name, arg_severity, ...) \
    ({                                                                               \
        KeyfileReaderInfo *_info = (arg_info);                                       \
                                                                                     \
        nm_assert(!_info->error);                                                    \
                                                                                     \
        if (_info->read_handler) {                                                   \
            _read_handle_warn(_info,                                                 \
                              (arg_kf_key),                                          \
                              (arg_property_name),                                   \
                              (arg_severity),                                        \
                              __VA_ARGS__);                                          \
        }                                                                            \
        _info->error == NULL;                                                        \
    })

/*****************************************************************************/

_nm_printf(6, 7) static void _write_handle_warn(KeyfileWriterInfo    *info,
                                                NMSetting            *setting,
                                                const char           *kf_key,
                                                const char           *cur_property,
                                                NMKeyfileWarnSeverity severity,
                                                const char           *fmt,
                                                ...)
{
    NMKeyfileHandlerData handler_data;

    _key_file_handler_data_init_write(&handler_data,
                                      NM_KEYFILE_HANDLER_TYPE_WARN,
                                      info,
                                      nm_setting_get_name(setting),
                                      cur_property,
                                      setting,
                                      kf_key);
    handler_data.warn = (NMKeyfileHandlerDataWarn) {
        .severity = severity,
        .message  = NULL,
        .fmt      = fmt,
    };

    va_start(handler_data.warn.ap, fmt);

    info->write_handler(info->connection,
                        info->keyfile,
                        NM_KEYFILE_HANDLER_TYPE_WARN,
                        &handler_data,
                        info->user_data);

    va_end(handler_data.warn.ap);

    g_free(handler_data.warn.message);
}

#define write_handle_warn(arg_info, arg_setting, arg_kf_key, arg_property_name, arg_severity, ...) \
    ({                                                                                             \
        KeyfileWriterInfo *_info = (arg_info);                                                     \
                                                                                                   \
        nm_assert(!_info->error);                                                                  \
                                                                                                   \
        if (_info->write_handler) {                                                                \
            _write_handle_warn(_info,                                                              \
                               (arg_setting),                                                      \
                               (arg_kf_key),                                                       \
                               (arg_property_name),                                                \
                               (arg_severity),                                                     \
                               __VA_ARGS__);                                                       \
        }                                                                                          \
        _info->error == NULL;                                                                      \
    })

/*****************************************************************************/

static gboolean
_secret_flags_persist_secret(NMSettingSecretFlags flags)
{
    return flags == NM_SETTING_SECRET_FLAG_NONE;
}

/*****************************************************************************/
/* Some setting properties also contain setting names, such as
 * NMSettingConnection's 'type' property (which specifies the base type of the
 * connection, e.g. ethernet or wifi) or 'port-type' (specifies type of port
 * connection, e.g. bond or bridge). This function handles translating those
 * properties' values to the real setting name if they are an alias.
 */
static void
setting_alias_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char   *setting_name = nm_setting_get_name(setting);
    const char   *key_setting_name;
    gs_free char *s = NULL;

    s = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, key, NULL);
    if (!s)
        return;

    key_setting_name = nm_keyfile_plugin_get_setting_name_for_alias(s);
    g_object_set(G_OBJECT(setting), key, key_setting_name ?: s, NULL);
}

static void
sriov_vfs_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char                  *setting_name = nm_setting_get_name(setting);
    gs_unref_ptrarray GPtrArray *vfs          = NULL;
    gs_strfreev char           **keys         = NULL;
    gsize                        n_keys       = 0;
    int                          i;

    keys = nm_keyfile_plugin_kf_get_keys(info->keyfile, setting_name, &n_keys, NULL);
    if (n_keys == 0)
        return;

    vfs = g_ptr_array_new_with_free_func((GDestroyNotify) nm_sriov_vf_unref);

    for (i = 0; i < n_keys; i++) {
        gs_free char *value = NULL;
        NMSriovVF    *vf;
        const char   *rest;

        if (!g_str_has_prefix(keys[i], "vf."))
            continue;

        rest = &keys[i][3];

        if (!NM_STRCHAR_ALL(rest, ch, g_ascii_isdigit(ch)))
            continue;

        value = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, keys[i], NULL);

        vf = _nm_utils_sriov_vf_from_strparts(rest, value, TRUE, NULL);
        if (vf)
            g_ptr_array_add(vfs, vf);
    }

    g_object_set(G_OBJECT(setting), key, vfs, NULL);
}

static void
read_array_of_uint(GKeyFile *file, NMSetting *setting, const char *key)
{
    gs_unref_array GArray *array = NULL;
    gs_free_error GError  *error = NULL;
    gs_free guint         *tmp   = NULL;
    gsize                  length;

    tmp = nm_keyfile_plugin_kf_get_integer_list_uint(file,
                                                     nm_setting_get_name(setting),
                                                     key,
                                                     &length,
                                                     &error);
    if (error)
        return;

    array = g_array_sized_new(FALSE, FALSE, sizeof(guint), length);
    g_array_append_vals(array, tmp, length);
    g_object_set(setting, key, array, NULL);
}

static gboolean
get_one_int(KeyfileReaderInfo *info,
            const char        *kf_key,
            const char        *property_name,
            const char        *str,
            guint32            max_val,
            guint32           *out)
{
    gint64 tmp;

    nm_assert((!info) == (!property_name));
    nm_assert((!info) == (!kf_key));

    if (!str || !str[0]) {
        if (info) {
            read_handle_warn(info,
                             kf_key,
                             property_name,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("ignoring missing number"));
        }
        return FALSE;
    }

    tmp = _nm_utils_ascii_str_to_int64(str, 10, 0, max_val, -1);
    if (tmp == -1) {
        if (info) {
            read_handle_warn(info,
                             kf_key,
                             property_name,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("ignoring invalid number '%s'"),
                             str);
        }
        return FALSE;
    }

    *out = (guint32) tmp;
    return TRUE;
}

static gpointer
build_address(KeyfileReaderInfo *info,
              const char        *kf_key,
              const char        *property_name,
              int                family,
              const char        *address_str,
              guint32            plen)
{
    NMIPAddress *addr;
    GError      *error = NULL;

    g_return_val_if_fail(address_str, NULL);

    addr = nm_ip_address_new(family, address_str, plen, &error);
    if (!addr) {
        read_handle_warn(info,
                         kf_key,
                         property_name,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("ignoring invalid %s address: %s"),
                         family == AF_INET ? "IPv4" : "IPv6",
                         error->message);
        g_error_free(error);
    }

    return addr;
}

static gpointer
build_route(KeyfileReaderInfo *info,
            const char        *kf_key,
            const char        *property_name,
            int                family,
            const char        *dest_str,
            guint32            plen,
            const char        *gateway_str,
            const char        *metric_str)
{
    NMIPRoute *route;
    guint32    u32;
    gint64     metric = -1;
    GError    *error  = NULL;

    g_return_val_if_fail(dest_str, NULL);

    /* Next hop */
    if (gateway_str && gateway_str[0]) {
        if (!nm_inet_is_valid(family, gateway_str)) {
            /* Try workaround for routes written by broken keyfile writer.
             * Due to bug bgo#719851, an older version of writer would have
             * written "a:b:c:d::/plen,metric" if the gateway was ::, instead
             * of "a:b:c:d::/plen,,metric" or "a:b:c:d::/plen,::,metric"
             * Try workaround by interpreting gateway_str as metric to accept such
             * invalid routes. This broken syntax should not be not officially
             * supported.
             **/
            if (family == AF_INET6 && !metric_str
                && get_one_int(NULL, NULL, NULL, gateway_str, G_MAXUINT32, &u32)) {
                metric      = u32;
                gateway_str = NULL;
            } else {
                read_handle_warn(info,
                                 kf_key,
                                 property_name,
                                 NM_KEYFILE_WARN_SEVERITY_WARN,
                                 _("ignoring invalid gateway '%s' for %s route"),
                                 gateway_str,
                                 family == AF_INET ? "IPv4" : "IPv6");
                return NULL;
            }
        }
    } else
        gateway_str = NULL;

    /* parse metric, default to -1 */
    if (metric_str) {
        if (!get_one_int(info, kf_key, property_name, metric_str, G_MAXUINT32, &u32))
            return NULL;
        metric = u32;
    }

    route = nm_ip_route_new(family, dest_str, plen, gateway_str, metric, &error);
    if (!route) {
        read_handle_warn(info,
                         kf_key,
                         property_name,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("ignoring invalid %s route: %s"),
                         family == AF_INET ? "IPv4" : "IPv6",
                         error->message);
        g_error_free(error);
    }

    return route;
}

/* On success, returns pointer to the zero-terminated field (original @current).
 * The @current * pointer target is set to point to the rest of the input
 * or %NULL if there is no more input. Sets error to %NULL for convenience.
 *
 * On failure, returns %NULL (unspecified). The @current pointer target is
 * resets to its original value to allow skipping fields. The @error target
 * is set to the character that breaks the parsing or %NULL if @current was %NULL.
 *
 * When @current target is %NULL, gracefully fail returning %NULL while
 * leaving the @current target %NULL end setting @error to %NULL;
 */
static const char *
read_field(char **current, const char **out_err_str, const char *characters, const char *delimiters)
{
    const char *start;

    nm_assert(current);
    nm_assert(out_err_str);
    nm_assert(characters);
    nm_assert(delimiters);

    *out_err_str = NULL;

    if (!*current) {
        /* graceful failure, leave '*current' NULL */
        return NULL;
    }

    /* fail on empty input */
    if (!**current)
        return NULL;

    /* remember beginning of input */
    start = *current;

    while (**current && strchr(characters, **current))
        (*current)++;
    if (**current)
        if (strchr(delimiters, **current)) {
            /* success, more data available */
            *(*current)++ = '\0';
            return start;
        } else {
            /* error, bad character */
            *out_err_str = *current;
            *current     = (char *) start;
            return NULL;
        }
    else {
        /* success, end of input */
        *current = NULL;
        return start;
    }
}

/*****************************************************************************/

#define NM_DBUS_SERVICE_OPENCONNECT    "org.freedesktop.NetworkManager.openconnect"
#define NM_OPENCONNECT_KEY_GATEWAY     "gateway"
#define NM_OPENCONNECT_KEY_COOKIE      "cookie"
#define NM_OPENCONNECT_KEY_GWCERT      "gwcert"
#define NM_OPENCONNECT_KEY_XMLCONFIG   "xmlconfig"
#define NM_OPENCONNECT_KEY_LASTHOST    "lasthost"
#define NM_OPENCONNECT_KEY_AUTOCONNECT "autoconnect"
#define NM_OPENCONNECT_KEY_CERTSIGS    "certsigs"

static void
openconnect_fix_secret_flags(NMSetting *setting)
{
    NMSettingVpn        *s_vpn;
    NMSettingSecretFlags flags;

    /* Huge hack.  There were some openconnect changes that needed to happen
     * pretty late, too late to get into distros.  Migration has already
     * happened for many people, and their secret flags are wrong.  But we
     * don't want to require re-migration, so we have to fix it up here. Ugh.
     */

    if (!NM_IS_SETTING_VPN(setting))
        return;

    s_vpn = NM_SETTING_VPN(setting);

    if (!nm_streq0(nm_setting_vpn_get_service_type(s_vpn), NM_DBUS_SERVICE_OPENCONNECT))
        return;

    /* These are different for every login session, and should not be stored */
    flags = NM_SETTING_SECRET_FLAG_NOT_SAVED;
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_GATEWAY, flags, NULL);
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_COOKIE, flags, NULL);
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_GWCERT, flags, NULL);

    /* These are purely internal data for the auth-dialog, and should be stored */
    flags = 0;
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_XMLCONFIG, flags, NULL);
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_LASTHOST, flags, NULL);
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_AUTOCONNECT, flags, NULL);
    nm_setting_set_secret_flags(NM_SETTING(s_vpn), NM_OPENCONNECT_KEY_CERTSIGS, flags, NULL);
}

/*****************************************************************************/

#define IP_ADDRESS_CHARS "0123456789abcdefABCDEF:.%"
#define DIGITS           "0123456789"
#define DELIMITERS       "/;,"

/* The following IPv4 and IPv6 address formats are supported:
 *
 * address (DEPRECATED)
 * address/plen
 * address/gateway (DEPRECATED)
 * address/plen,gateway
 *
 * The following IPv4 and IPv6 route formats are supported:
 *
 * address/plen (NETWORK dev DEVICE)
 * address/plen,gateway (NETWORK via GATEWAY dev DEVICE)
 * address/plen,,metric (NETWORK dev DEVICE metric METRIC)
 * address/plen,gateway,metric (NETWORK via GATEWAY dev DEVICE metric METRIC)
 *
 * For backward, forward and sideward compatibility, slash (/),
 * semicolon (;) and comma (,) are interchangeable. The choice of
 * separator in the above examples is therefore not significant.
 *
 * Leaving out the prefix length is discouraged and DEPRECATED. The
 * default value of IPv6 prefix length was 64 and has not been
 * changed. The default for IPv4 is now 24, which is the closest
 * IPv4 equivalent. These defaults may just as well be changed to
 * match the iproute2 defaults (32 for IPv4 and 128 for IPv6).
 */
static gpointer
read_one_ip_address_or_route(KeyfileReaderInfo *info,
                             const char        *property_name,
                             const char        *setting_name,
                             const char        *kf_key,
                             gboolean           ipv6,
                             gboolean           route,
                             char             **out_gateway,
                             NMSetting         *setting)
{
    guint         plen;
    gpointer      result;
    const char   *address_str;
    const char   *plen_str;
    const char   *gateway_str;
    const char   *metric_str;
    const char   *err_str = NULL;
    char         *current;
    gs_free char *value      = NULL;
    gs_free char *value_orig = NULL;

#define VALUE_ORIG()      \
    (value_orig           \
         ?: (value_orig = \
                 nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, kf_key, NULL)))

    value = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, kf_key, NULL);
    if (!value)
        return NULL;

    current = value;

    /* get address field */
    address_str = read_field(&current, &err_str, IP_ADDRESS_CHARS, DELIMITERS);
    if (err_str) {
        read_handle_warn(info,
                         kf_key,
                         property_name,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("unexpected character '%c' for address %s: '%s' (position %td)"),
                         *err_str,
                         kf_key,
                         VALUE_ORIG(),
                         err_str - current);
        return NULL;
    }
    /* get prefix length field (skippable) */
    plen_str = read_field(&current, &err_str, DIGITS, DELIMITERS);
    /* get gateway field */
    gateway_str = read_field(&current, &err_str, IP_ADDRESS_CHARS, DELIMITERS);
    if (err_str) {
        read_handle_warn(info,
                         kf_key,
                         property_name,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("unexpected character '%c' for %s: '%s' (position %td)"),
                         *err_str,
                         kf_key,
                         VALUE_ORIG(),
                         err_str - current);
        return NULL;
    }
    /* for routes, get metric */
    if (route) {
        metric_str = read_field(&current, &err_str, DIGITS, DELIMITERS);
        if (err_str) {
            read_handle_warn(
                info,
                kf_key,
                property_name,
                NM_KEYFILE_WARN_SEVERITY_WARN,
                _("unexpected character '%c' in prefix length for %s: '%s' (position %td)"),
                *err_str,
                kf_key,
                VALUE_ORIG(),
                err_str - current);
            return NULL;
        }
    } else
        metric_str = NULL;
    if (current) {
        /* there is still some data */
        if (*current) {
            /* another field follows */
            read_handle_warn(info,
                             kf_key,
                             property_name,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("garbage at the end of value %s: '%s'"),
                             kf_key,
                             VALUE_ORIG());
            return NULL;
        } else {
            /* semicolon at the end of input */
            if (!read_handle_warn(info,
                                  kf_key,
                                  property_name,
                                  NM_KEYFILE_WARN_SEVERITY_INFO,
                                  _("deprecated semicolon at the end of value %s: '%s'"),
                                  kf_key,
                                  VALUE_ORIG()))
                return NULL;
        }
    }

#define DEFAULT_PREFIX(for_route, for_ipv6) \
    ((for_route) ? ((for_ipv6) ? 128 : 24) : ((for_ipv6) ? 64 : 24))

    /* parse plen, fallback to defaults */
    if (plen_str) {
        if (!get_one_int(info, kf_key, property_name, plen_str, ipv6 ? 128 : 32, &plen)) {
            plen = DEFAULT_PREFIX(route, ipv6);
            if (info->error
                || !read_handle_warn(info,
                                     kf_key,
                                     property_name,
                                     NM_KEYFILE_WARN_SEVERITY_WARN,
                                     _("invalid prefix length for %s '%s', defaulting to %d"),
                                     kf_key,
                                     VALUE_ORIG(),
                                     plen))
                return NULL;
        }
    } else {
        plen = DEFAULT_PREFIX(route, ipv6);
        if (!read_handle_warn(info,
                              kf_key,
                              property_name,
                              NM_KEYFILE_WARN_SEVERITY_WARN,
                              _("missing prefix length for %s '%s', defaulting to %d"),
                              kf_key,
                              VALUE_ORIG(),
                              plen))
            return NULL;
    }

    /* build the appropriate data structure for NetworkManager settings */
    if (route) {
        result = build_route(info,
                             kf_key,
                             property_name,
                             ipv6 ? AF_INET6 : AF_INET,
                             address_str,
                             plen,
                             gateway_str,
                             metric_str);
    } else {
        result = build_address(info,
                               kf_key,
                               property_name,
                               ipv6 ? AF_INET6 : AF_INET,
                               address_str,
                               plen);
        if (!result)
            return NULL;
        if (gateway_str)
            NM_SET_OUT(out_gateway, g_strdup(gateway_str));
    }

#undef VALUE_ORIG

    return result;
}

static void
fill_route_attributes(GKeyFile   *kf,
                      NMIPRoute  *route,
                      const char *setting,
                      const char *key,
                      int         family)
{
    gs_free char                  *value = NULL;
    gs_unref_hashtable GHashTable *hash  = NULL;
    GHashTableIter                 iter;
    char                          *name;
    GVariant                      *variant;

    value = nm_keyfile_plugin_kf_get_string(kf, setting, key, NULL);
    if (!value || !value[0])
        return;

    hash = nm_utils_parse_variant_attributes(value,
                                             ',',
                                             '=',
                                             TRUE,
                                             nm_ip_route_get_variant_attribute_spec(),
                                             NULL);
    if (hash) {
        g_hash_table_iter_init(&iter, hash);
        while (g_hash_table_iter_next(&iter, (gpointer *) &name, (gpointer *) &variant)) {
            if (nm_ip_route_attribute_validate(name, variant, family, NULL, NULL))
                nm_ip_route_set_attribute(route, name, g_variant_ref(variant));
        }
    }
}

typedef struct {
    const char *s_key;
    gint32      key_idx;
    gint8       key_type;
} BuildListData;

typedef enum {
    BUILD_LIST_TYPE_ADDRESSES,
    BUILD_LIST_TYPE_ROUTES,
    BUILD_LIST_TYPE_ROUTING_RULES,
} BuildListType;

static int
_build_list_data_cmp(gconstpointer p_a, gconstpointer p_b, gpointer user_data)
{
    const BuildListData *a = p_a;
    const BuildListData *b = p_b;

    NM_CMP_FIELD(a, b, key_idx);
    NM_CMP_FIELD(a, b, key_type);
    NM_CMP_FIELD_STR(a, b, s_key);
    return 0;
}

static gboolean
_build_list_data_is_shadowed(const BuildListData *build_list, gsize build_list_len, gsize idx)
{
    /* the keyfile contains duplicate keys, which are both returned
     * by g_key_file_get_keys() (WHY??).
     *
     * Skip the earlier one. */
    return idx + 1 < build_list_len && build_list[idx].key_idx == build_list[idx + 1].key_idx
           && build_list[idx].key_type == build_list[idx + 1].key_type
           && nm_streq(build_list[idx].s_key, build_list[idx + 1].s_key);
}

static gboolean
_build_list_match_key_w_name_impl(const char *key,
                                  const char *base_name,
                                  gsize       base_name_l,
                                  gint32     *out_key_idx)
{
    gint64 v;

    /* some very strict parsing. */

    /* the key must start with base_name. */
    if (strncmp(key, base_name, base_name_l) != 0)
        return FALSE;

    key += base_name_l;
    if (key[0] == '\0') {
        /* if key is identical to base_name, that's good. */
        NM_SET_OUT(out_key_idx, -1);
        return TRUE;
    }

    /* if base_name is followed by a zero, then it must be
     * only a zero, nothing else. */
    if (key[0] == '0') {
        if (key[1] != '\0')
            return FALSE;
        NM_SET_OUT(out_key_idx, 0);
        return TRUE;
    }

    /* otherwise, it can only be followed by a non-zero decimal. */
    if (!(key[0] >= '1' && key[0] <= '9'))
        return FALSE;
    /* and all remaining chars must be decimals too. */
    if (!NM_STRCHAR_ALL(&key[1], ch, g_ascii_isdigit(ch)))
        return FALSE;

    /* and it must be convertible to a (positive) int. */
    v = _nm_utils_ascii_str_to_int64(key, 10, 0, G_MAXINT32, -1);
    if (v < 0)
        return FALSE;

    /* good */
    NM_SET_OUT(out_key_idx, v);
    return TRUE;
}

#define _build_list_match_key_w_name(key, base_name, out_key_idx) \
    _build_list_match_key_w_name_impl(key, base_name, NM_STRLEN(base_name), out_key_idx)

static BuildListData *
_build_list_create(GKeyFile     *keyfile,
                   const char   *group_name,
                   BuildListType build_list_type,
                   gsize        *out_build_list_len,
                   char       ***out_keys_strv)
{
    gs_strfreev char     **keys = NULL;
    gsize                  i_keys, n_keys;
    gs_free BuildListData *build_list     = NULL;
    gsize                  build_list_len = 0;

    nm_assert(out_build_list_len && *out_build_list_len == 0);
    nm_assert(out_keys_strv && !*out_keys_strv);

    keys = nm_keyfile_plugin_kf_get_keys(keyfile, group_name, &n_keys, NULL);
    if (n_keys == 0)
        return NULL;

    for (i_keys = 0; i_keys < n_keys; i_keys++) {
        const char *s_key = keys[i_keys];
        gint32      key_idx;
        gint8       key_type = 0;

        switch (build_list_type) {
        case BUILD_LIST_TYPE_ROUTES:
            if (_build_list_match_key_w_name(s_key, "route", &key_idx))
                key_type = 0;
            else if (_build_list_match_key_w_name(s_key, "routes", &key_idx))
                key_type = 1;
            else
                continue;
            break;
        case BUILD_LIST_TYPE_ADDRESSES:
            if (_build_list_match_key_w_name(s_key, "address", &key_idx))
                key_type = 0;
            else if (_build_list_match_key_w_name(s_key, "addresses", &key_idx))
                key_type = 1;
            else
                continue;
            break;
        case BUILD_LIST_TYPE_ROUTING_RULES:
            if (_build_list_match_key_w_name(s_key, "routing-rule", &key_idx))
                key_type = 0;
            else
                continue;
            break;
        default:
            nm_assert_not_reached();
            break;
        }

        if (G_UNLIKELY(!build_list))
            build_list = g_new(BuildListData, n_keys - i_keys);

        build_list[build_list_len++] = (BuildListData) {
            .s_key    = s_key,
            .key_idx  = key_idx,
            .key_type = key_type,
        };
    }

    if (build_list_len == 0)
        return NULL;

    if (build_list_len > 1) {
        g_qsort_with_data(build_list,
                          build_list_len,
                          sizeof(BuildListData),
                          _build_list_data_cmp,
                          NULL);
    }

    *out_build_list_len = build_list_len;
    *out_keys_strv      = g_steal_pointer(&keys);
    return g_steal_pointer(&build_list);
}

static void
ip_address_or_route_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *setting_key)
{
    const char                  *setting_name = nm_setting_get_name(setting);
    gboolean                     is_ipv6      = nm_streq(setting_name, "ipv6");
    gboolean                     is_routes    = nm_streq(setting_key, "routes");
    gs_free char                *gateway      = NULL;
    gs_unref_ptrarray GPtrArray *list         = NULL;
    gs_strfreev char           **keys         = NULL;
    gs_free BuildListData       *build_list   = NULL;
    gsize                        i_build_list, build_list_len = 0;

    build_list = _build_list_create(info->keyfile,
                                    setting_name,
                                    is_routes ? BUILD_LIST_TYPE_ROUTES : BUILD_LIST_TYPE_ADDRESSES,
                                    &build_list_len,
                                    &keys);
    if (!build_list)
        return;

    list = g_ptr_array_new_with_free_func(is_routes ? (GDestroyNotify) nm_ip_route_unref
                                                    : (GDestroyNotify) nm_ip_address_unref);

    for (i_build_list = 0; i_build_list < build_list_len; i_build_list++) {
        const char *s_key;
        gpointer    item;

        if (_build_list_data_is_shadowed(build_list, build_list_len, i_build_list))
            continue;

        s_key = build_list[i_build_list].s_key;
        item  = read_one_ip_address_or_route(info,
                                            setting_key,
                                            setting_name,
                                            s_key,
                                            is_ipv6,
                                            is_routes,
                                            gateway ? NULL : &gateway,
                                            setting);
        if (item && is_routes) {
            char options_key[128];

            nm_sprintf_buf(options_key, "%s_options", s_key);
            fill_route_attributes(info->keyfile,
                                  item,
                                  setting_name,
                                  options_key,
                                  is_ipv6 ? AF_INET6 : AF_INET);
        }

        if (info->error)
            return;

        if (item)
            g_ptr_array_add(list, item);
    }

    if (list->len >= 1)
        g_object_set(setting, setting_key, list, NULL);

    if (gateway)
        g_object_set(setting, "gateway", gateway, NULL);
}

static void
ip_routing_rule_parser_full(KeyfileReaderInfo        *info,
                            const NMMetaSettingInfo  *setting_info,
                            const NMSettInfoProperty *property_info,
                            const ParseInfoProperty  *pip,
                            NMSetting                *setting)
{
    const char            *setting_name = nm_setting_get_name(setting);
    gboolean               is_ipv6      = nm_streq(setting_name, "ipv6");
    gs_strfreev char     **keys         = NULL;
    gs_free BuildListData *build_list   = NULL;
    gsize                  i_build_list, build_list_len = 0;

    build_list = _build_list_create(info->keyfile,
                                    setting_name,
                                    BUILD_LIST_TYPE_ROUTING_RULES,
                                    &build_list_len,
                                    &keys);
    if (!build_list)
        return;

    for (i_build_list = 0; i_build_list < build_list_len; i_build_list++) {
        nm_auto_unref_ip_routing_rule NMIPRoutingRule *rule  = NULL;
        gs_free char                                  *value = NULL;
        gs_free_error GError                          *local = NULL;

        if (_build_list_data_is_shadowed(build_list, build_list_len, i_build_list))
            continue;

        value = nm_keyfile_plugin_kf_get_string(info->keyfile,
                                                setting_name,
                                                build_list[i_build_list].s_key,
                                                NULL);
        if (!value)
            continue;

        rule = nm_ip_routing_rule_from_string(
            value,
            (NM_IP_ROUTING_RULE_AS_STRING_FLAGS_VALIDATE
             | (is_ipv6 ? NM_IP_ROUTING_RULE_AS_STRING_FLAGS_AF_INET6
                        : NM_IP_ROUTING_RULE_AS_STRING_FLAGS_AF_INET)),
            NULL,
            &local);
        if (!rule) {
            if (!read_handle_warn(info,
                                  build_list[i_build_list].s_key,
                                  property_info->name,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("invalid value for \"%s\": %s"),
                                  build_list[i_build_list].s_key,
                                  local->message))
                return;
            continue;
        }

        nm_setting_ip_config_add_routing_rule(NM_SETTING_IP_CONFIG(setting), rule);
    }
}

static void
_parser_full_strdict_data(KeyfileReaderInfo        *info,
                          const NMMetaSettingInfo  *setting_info,
                          const NMSettInfoProperty *property_info,
                          const ParseInfoProperty  *pip,
                          NMSetting                *setting)
{
    gs_strfreev char **keys = NULL;
    gsize              n_keys;
    gsize              i;
    gboolean           is_exid;

    if (NM_IS_SETTING_OVS_EXTERNAL_IDS(setting)) {
        nm_assert(nm_streq(property_info->name, NM_SETTING_OVS_EXTERNAL_IDS_DATA));
        is_exid = TRUE;
    } else {
        nm_assert(NM_IS_SETTING_OVS_OTHER_CONFIG(setting));
        nm_assert(nm_streq(property_info->name, NM_SETTING_OVS_OTHER_CONFIG_DATA));
        is_exid = FALSE;
    }

    nm_assert(nm_streq(setting_info->setting_name, nm_setting_get_name(setting)));

    keys = nm_keyfile_plugin_kf_get_keys(info->keyfile, setting_info->setting_name, &n_keys, NULL);

    for (i = 0; i < n_keys; i++) {
        const char   *key          = keys[i];
        gs_free char *name_to_free = NULL;
        gs_free char *value        = NULL;
        const char   *name;

        if (!NM_STR_HAS_PREFIX(key, STRDICT_DATA_PREFIX))
            continue;

        value =
            nm_keyfile_plugin_kf_get_string(info->keyfile, setting_info->setting_name, key, NULL);
        if (!value)
            continue;

        name = &key[NM_STRLEN(STRDICT_DATA_PREFIX)];
        name = nm_keyfile_key_decode(name, &name_to_free);
        if (is_exid)
            nm_setting_ovs_external_ids_set_data(NM_SETTING_OVS_EXTERNAL_IDS(setting), name, value);
        else
            nm_setting_ovs_other_config_set_data(NM_SETTING_OVS_OTHER_CONFIG(setting), name, value);
    }
}

static void
ip_dns_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    int                addr_family;
    gs_strfreev char **list = NULL;
    gsize              length;
    gsize              n;
    gsize              i;

    nm_assert(NM_IS_SETTING_IP4_CONFIG(setting) || NM_IS_SETTING_IP6_CONFIG(setting));

    list = nm_keyfile_plugin_kf_get_string_list(info->keyfile,
                                                nm_setting_get_name(setting),
                                                key,
                                                &length,
                                                NULL);
    nm_assert(length == NM_PTRARRAY_LEN(list));
    if (length == 0)
        return;

    addr_family = NM_SETTING_IP_CONFIG_GET_ADDR_FAMILY(setting);

    for (i = 0, n = 0; i < length; i++) {
        if (!nm_utils_dnsname_parse(addr_family, list[i], NULL, NULL, NULL)) {
            if (!read_handle_warn(info,
                                  key,
                                  key,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("ignoring invalid DNS server IPv%c address '%s'"),
                                  nm_utils_addr_family_to_char(addr_family),
                                  list[i])) {
                do {
                    nm_clear_g_free(&list[i]);
                } while (++i < length);
                return;
            }
            nm_clear_g_free(&list[i]);
            continue;
        }

        if (n != i)
            list[n] = g_steal_pointer(&list[i]);
        n++;
    }

    g_object_set(setting, key, list, NULL);
}

static void
ip6_addr_gen_mode_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    NMSettingIP6ConfigAddrGenMode addr_gen_mode;
    const char                   *setting_name = nm_setting_get_name(setting);
    gs_free char                 *s            = NULL;

    s = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, key, NULL);
    if (s) {
        if (!nm_utils_enum_from_str(nm_setting_ip6_config_addr_gen_mode_get_type(),
                                    s,
                                    (int *) &addr_gen_mode,
                                    NULL)) {
            if (!read_handle_warn(info,
                                  key,
                                  key,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("invalid option '%s', use one of [%s]"),
                                  s,
                                  "eui64,stable-privacy"))
                return;
            addr_gen_mode = NM_SETTING_IP6_CONFIG_ADDR_GEN_MODE_DEFAULT_OR_EUI64;
        }
    } else {
        gs_free char *s2 = NULL;

        s2 = nm_keyfile_plugin_kf_get_string(info->keyfile,
                                             setting_name,
                                             NM_SETTING_IP6_CONFIG_TOKEN,
                                             NULL);
        if (s2) {
            /* If a token is set, but the addr-gen-mode is not, then the default
             * is eui64. Otherwise, the result would not verify. */
            addr_gen_mode = NM_SETTING_IP6_CONFIG_ADDR_GEN_MODE_EUI64;
        } else
            addr_gen_mode = NM_SETTING_IP6_CONFIG_ADDR_GEN_MODE_DEFAULT_OR_EUI64;
    }

    g_object_set(G_OBJECT(setting), key, (int) addr_gen_mode, NULL);
}

static void
mac_address_parser(KeyfileReaderInfo *info,
                   NMSetting         *setting,
                   const char        *key,
                   gsize              addr_len,
                   gboolean           cloned_mac_addr)
{
    const char    *setting_name = nm_setting_get_name(setting);
    char           addr_str[NM_UTILS_HWADDR_LEN_MAX * 3];
    guint8         addr_bin[NM_UTILS_HWADDR_LEN_MAX];
    gs_free char  *tmp_string = NULL;
    gs_free guint *int_list   = NULL;
    const char    *mac_str;
    gsize          int_list_len;
    gsize          i;

    nm_assert(addr_len > 0);
    nm_assert(addr_len <= NM_UTILS_HWADDR_LEN_MAX);

    tmp_string = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, key, NULL);

    if (cloned_mac_addr) {
        gboolean is_wifi;

        is_wifi = NM_IS_SETTING_WIRELESS(setting);
        if (NM_CLONED_MAC_IS_SPECIAL(tmp_string, is_wifi)) {
            mac_str = tmp_string;
            goto out;
        }
    }

    if (tmp_string && nm_utils_hwaddr_aton(tmp_string, addr_bin, addr_len))
        goto good_addr_bin;

    /* Old format; list of ints */
    int_list = nm_keyfile_plugin_kf_get_integer_list_uint(info->keyfile,
                                                          setting_name,
                                                          key,
                                                          &int_list_len,
                                                          NULL);
    if (int_list_len == addr_len) {
        for (i = 0; i < addr_len; i++) {
            const guint val = int_list[i];

            if (val > 255)
                break;
            addr_bin[i] = (guint8) val;
        }
        if (i == addr_len)
            goto good_addr_bin;
    }

    read_handle_warn(info,
                     key,
                     key,
                     NM_KEYFILE_WARN_SEVERITY_WARN,
                     _("ignoring invalid MAC address"));
    return;

good_addr_bin:
    nm_utils_bin2hexstr_full(addr_bin, addr_len, ':', TRUE, addr_str);
    mac_str = addr_str;

out:
    g_object_set(setting, key, mac_str, NULL);
}

static void
mac_address_parser_ETHER(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    mac_address_parser(info, setting, key, ETH_ALEN, FALSE);
}

static void
mac_address_parser_ETHER_cloned(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    mac_address_parser(info, setting, key, ETH_ALEN, TRUE);
}

static void
mac_address_parser_INFINIBAND(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    mac_address_parser(info, setting, key, INFINIBAND_ALEN, FALSE);
}

static void
read_hash_of_string(KeyfileReaderInfo *info,
                    GKeyFile          *file,
                    NMSetting         *setting,
                    const char        *kf_group)
{
    gs_strfreev char **keys = NULL;
    const char *const *iter;
    const char        *setting_name = nm_setting_get_name(setting);
    gboolean           is_vpn;
    gsize              n_keys;

    nm_assert((NM_IS_SETTING_VPN(setting) && nm_streq(kf_group, NM_SETTING_VPN_DATA))
              || (NM_IS_SETTING_VPN(setting) && nm_streq(kf_group, NM_SETTING_VPN_SECRETS))
              || (NM_IS_SETTING_BOND(setting) && nm_streq(kf_group, NM_SETTING_BOND_OPTIONS))
              || (NM_IS_SETTING_USER(setting) && nm_streq(kf_group, NM_SETTING_USER_DATA)));

    keys = nm_keyfile_plugin_kf_get_keys(file, setting_name, &n_keys, NULL);
    if (n_keys == 0)
        return;

    if ((is_vpn = NM_IS_SETTING_VPN(setting)) || NM_IS_SETTING_BOND(setting)) {
        for (iter = (const char *const *) keys; *iter; iter++) {
            const char   *kf_key  = *iter;
            gs_free char *to_free = NULL;
            gs_free char *value   = NULL;
            const char   *name;

            value = nm_keyfile_plugin_kf_get_string(file, setting_name, kf_key, NULL);
            if (!value)
                continue;

            name = nm_keyfile_key_decode(kf_key, &to_free);

            if (is_vpn) {
                /* Add any item that's not a class property to the data hash */
                if (!g_object_class_find_property(G_OBJECT_GET_CLASS(setting), name))
                    nm_setting_vpn_add_data_item(NM_SETTING_VPN(setting), name, value);
            } else {
                if (!nm_streq(name, "interface-name")) {
                    gs_free_error GError *error = NULL;

                    if (!_nm_setting_bond_validate_option(name, value, &error)) {
                        if (!read_handle_warn(info,
                                              kf_key,
                                              name,
                                              NM_KEYFILE_WARN_SEVERITY_WARN,
                                              _("ignoring invalid bond option %s%s%s = %s%s%s: %s"),
                                              NM_PRINT_FMT_QUOTE_STRING(name),
                                              NM_PRINT_FMT_QUOTE_STRING(value),
                                              error->message))
                            return;
                    } else
                        nm_setting_bond_add_option(NM_SETTING_BOND(setting), name, value);
                }
            }
        }
        openconnect_fix_secret_flags(setting);
        return;
    }

    if (NM_IS_SETTING_USER(setting)) {
        gs_unref_hashtable GHashTable *data = NULL;

        data = g_hash_table_new_full(nm_str_hash, g_str_equal, g_free, g_free);
        for (iter = (const char *const *) keys; *iter; iter++) {
            gs_free char *to_free = NULL;
            char         *value   = NULL;
            const char   *name;

            value = nm_keyfile_plugin_kf_get_string(file, setting_name, *iter, NULL);
            if (!value)
                continue;
            name = nm_keyfile_key_decode(*iter, &to_free);
            g_hash_table_insert(data, g_steal_pointer(&to_free) ?: g_strdup(name), value);
        }
        g_object_set(setting, NM_SETTING_USER_DATA, data, NULL);
        return;
    }

    nm_assert_not_reached();
}

static gsize
unescape_semicolons(char *str)
{
    gsize i, j;

    for (i = 0, j = 0; str[i];) {
        if (str[i] == '\\' && str[i + 1] == ';')
            i++;
        str[j++] = str[i++];
    }
    nm_explicit_bzero(&str[j], i - j);
    return j;
}

static GBytes *
get_bytes(KeyfileReaderInfo *info,
          const char        *setting_name,
          const char        *key,
          gboolean           zero_terminate,
          gboolean           unescape_semicolon)
{
    nm_auto_free_secret char *tmp_string      = NULL;
    gboolean                  may_be_int_list = TRUE;
    gsize                     length;
    GBytes                   *result;

    /* New format: just a string
     * Old format: integer list; e.g. 11;25;38;
     */
    tmp_string = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, key, NULL);
    if (!tmp_string)
        return NULL;

    /* if the string is empty, we return an empty GBytes array.
     * Note that for NM_SETTING_802_1X_PASSWORD_RAW both %NULL and
     * an empty GBytes are valid, and shall be destinguished. */
    if (!tmp_string[0]) {
        /* note that even if @zero_terminate is TRUE, we return an empty
         * byte-array. The reason is that zero_terminate is there to terminate
         * *valid* strings. It's not there to terminated invalid (empty) strings.
         */
        return g_bytes_new_static("", 0);
    }

    for (length = 0; tmp_string[length]; length++) {
        const char ch = tmp_string[length];

        if (!g_ascii_isspace(ch) && !g_ascii_isdigit(ch) && ch != ';') {
            may_be_int_list = FALSE;
            length += strlen(&tmp_string[length]);
            break;
        }
    }

    /* Try to parse the string as a integer list. */
    if (may_be_int_list && length > 0) {
        nm_auto_free_secret_buf NMSecretBuf *bin = NULL;
        const char *const                    s   = tmp_string;
        gsize                                i, d;

        bin = nm_secret_buf_new(length / 2 + 3);

#define DIGIT(c) ((c) - '0')
        i = 0;
        d = 0;
        while (TRUE) {
            int n;

            /* leading whitespace */
            while (g_ascii_isspace(s[i]))
                i++;
            if (s[i] == '\0')
                break;
            /* then expect 1 to 3 digits */
            if (!g_ascii_isdigit(s[i])) {
                d = 0;
                break;
            }
            n = DIGIT(s[i]);
            i++;
            if (g_ascii_isdigit(s[i])) {
                n = 10 * n + DIGIT(s[i]);
                i++;
                if (g_ascii_isdigit(s[i])) {
                    n = 10 * n + DIGIT(s[i]);
                    i++;
                }
            }
            if (n > 255) {
                d = 0;
                break;
            }

            nm_assert(d < bin->len);
            bin->bin[d++] = n;

            /* allow whitespace after the digit. */
            while (g_ascii_isspace(s[i]))
                i++;
            /* need a semicolon as separator. */
            if (s[i] != ';') {
                d = 0;
                break;
            }
            i++;
        }
#undef DIGIT

        /* Old format; list of ints. We already did a strict validation of the
         * string format before. We expect that this conversion cannot fail. */
        if (d > 0) {
            /* note that @zero_terminate does not add a terminating '\0' to
             * binary data as an integer list. If the bytes are expressed as
             * an integer list, all potential NUL characters are supposed to
             * be included there explicitly.
             *
             * However, in the spirit of defensive programming, we do append a
             * NUL character to the buffer, although this character is hidden
             * and only a mitigation for bugs. */

            if (d + 10 < bin->len) {
                /* hm, too much unused memory. Copy the memory to a suitable
                 * sized buffer. */
                return nm_secret_copy_to_gbytes(bin->bin, d);
            }

            nm_assert(d < bin->len);
            bin->bin[d] = '\0';
            return nm_secret_buf_to_gbytes_take(g_steal_pointer(&bin), d);
        }
    }

    /* Handle as a simple string (ie, new format) */
    if (unescape_semicolon)
        length = unescape_semicolons(tmp_string);
    if (zero_terminate)
        length++;
    if (length == 0)
        return NULL;

    result =
        g_bytes_new_with_free_func(tmp_string, length, (GDestroyNotify) nm_free_secret, tmp_string);
    tmp_string = NULL;
    return result;
}

static void
ssid_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char            *setting_name = nm_setting_get_name(setting);
    gs_unref_bytes GBytes *bytes        = NULL;

    bytes = get_bytes(info, setting_name, key, FALSE, TRUE);
    if (!bytes) {
        read_handle_warn(info, key, key, NM_KEYFILE_WARN_SEVERITY_WARN, _("ignoring invalid SSID"));
        return;
    }
    g_object_set(setting, key, bytes, NULL);
}

static void
password_raw_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char            *setting_name = nm_setting_get_name(setting);
    gs_unref_bytes GBytes *bytes        = NULL;

    bytes = get_bytes(info, setting_name, key, FALSE, TRUE);
    if (!bytes) {
        read_handle_warn(info,
                         key,
                         key,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("ignoring invalid raw password"));
        return;
    }
    g_object_set(setting, key, bytes, NULL);
}

static char *
get_cert_path(const char *base_dir, const guint8 *cert_path, gsize cert_path_len)
{
    const char *base;
    char       *p = NULL, *path, *tmp;

    g_return_val_if_fail(base_dir != NULL, NULL);
    g_return_val_if_fail(cert_path != NULL, NULL);

    path = g_strndup((char *) cert_path, cert_path_len);

    if (path[0] == '/')
        return path;

    base = path;
    p    = strrchr(path, '/');
    if (p)
        base = p + 1;

    tmp = g_build_path("/", base_dir, base, NULL);
    g_free(path);
    return tmp;
}

static const char *certext[] = {".pem", ".cert", ".crt", ".cer", ".p12", ".der", ".key"};

static gboolean
has_cert_ext(const char *path)
{
    int i;

    for (i = 0; i < G_N_ELEMENTS(certext); i++) {
        if (g_str_has_suffix(path, certext[i]))
            return TRUE;
    }
    return FALSE;
}

char *
nm_keyfile_detect_unqualified_path_scheme(const char   *base_dir,
                                          gconstpointer pdata,
                                          gsize         data_len,
                                          gboolean      consider_exists,
                                          gboolean     *out_exists)
{
    const char   *data   = pdata;
    gboolean      exists = FALSE;
    gsize         validate_len;
    gsize         path_len, pathuri_len;
    gs_free char *path    = NULL;
    gs_free char *pathuri = NULL;

    g_return_val_if_fail(base_dir && base_dir[0] == '/', NULL);

    if (!pdata)
        return NULL;
    if (data_len == -1)
        data_len = strlen(data);
    if (data_len > 500 || data_len < 1)
        return NULL;

    /* If there's a trailing zero tell g_utf8_validate() to validate until the zero */
    if (data[data_len - 1] == '\0') {
        /* setting it to -1, would mean we accept data to contain NUL characters before the
         * end. Don't accept any NUL in [0 .. data_len-1[ . */
        validate_len = data_len - 1;
    } else
        validate_len = data_len;
    if (validate_len == 0 || g_utf8_validate((const char *) data, validate_len, NULL) == FALSE)
        return NULL;

    /* Might be a bare path without the file:// prefix; in that case
     * if it's an absolute path, use that, otherwise treat it as a
     * relative path to the current directory.
     */

    path = get_cert_path(base_dir, (const guint8 *) data, data_len);

    /* FIXME(keyfile-parse-in-memory): it is wrong that keyfile reader makes decisions based on
     * the file systems content. The serialization/parsing should be entirely in-memory. */
    if (!memchr(data, '/', data_len) && !has_cert_ext(path)) {
        if (!consider_exists)
            return NULL;
        exists = g_file_test(path, G_FILE_TEST_EXISTS);
        if (!exists)
            return NULL;
    } else if (out_exists)
        exists = g_file_test(path, G_FILE_TEST_EXISTS);

    /* Construct the proper value as required for the PATH scheme.
     *
     * When returning TRUE, we must also be sure that @data_len does not look like
     * the deprecated format of list of integers. With this implementation that is the
     * case, as long as @consider_exists is FALSE. */
    path_len    = strlen(path);
    pathuri_len = (NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_PATH) + 1) + path_len;
    pathuri     = g_new(char, pathuri_len);
    memcpy(pathuri,
           NM_KEYFILE_CERT_SCHEME_PREFIX_PATH,
           NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_PATH));
    memcpy(&pathuri[NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_PATH)], path, path_len + 1);
    if (nm_setting_802_1x_check_cert_scheme(pathuri, pathuri_len, NULL)
        != NM_SETTING_802_1X_CK_SCHEME_PATH)
        return NULL;

    NM_SET_OUT(out_exists, exists);
    return g_steal_pointer(&pathuri);
}

#define HAS_SCHEME_PREFIX(bin, bin_len, scheme)                         \
    ({                                                                  \
        const char *const _bin     = (bin);                             \
        const gsize       _bin_len = (bin_len);                         \
                                                                        \
        nm_assert(_bin &&_bin_len > 0);                                 \
                                                                        \
        (_bin_len > NM_STRLEN(scheme) + 1 && _bin[_bin_len - 1] == '\0' \
         && memcmp(_bin, scheme, NM_STRLEN(scheme)) == 0);              \
    })

static void
cert_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char            *setting_name = nm_setting_get_name(setting);
    gs_unref_bytes GBytes *bytes        = NULL;
    const char            *bin          = NULL;
    gsize                  bin_len      = 0;
    char                  *path;
    gboolean               path_exists;

    bytes = get_bytes(info, setting_name, key, TRUE, FALSE);
    if (bytes)
        bin = g_bytes_get_data(bytes, &bin_len);
    if (bin_len == 0) {
        if (!info->error) {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid key/cert value"));
        }
        return;
    }

    if (HAS_SCHEME_PREFIX(bin, bin_len, NM_KEYFILE_CERT_SCHEME_PREFIX_PATH)) {
        const char   *path2      = &bin[NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_PATH)];
        gs_free char *path2_free = NULL;

        if (nm_setting_802_1x_check_cert_scheme(bin, bin_len, NULL)
            != NM_SETTING_802_1X_CK_SCHEME_PATH) {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid key/cert value path \"%s\""),
                             bin);
            return;
        }

        g_object_set(setting, key, bytes, NULL);

        if (path2[0] != '/') {
            /* we want to read absolute paths because we use keyfile as exchange
             * between different processes which might not have the same cwd. */
            path2_free = get_cert_path(info->base_dir,
                                       (const guint8 *) path2,
                                       bin_len - NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_PATH) - 1);
            path2      = path2_free;
        }

        /* FIXME(keyfile-parse-in-memory): keyfile reader must not access the file system and
         * (in a first step) only operate in memory-only. If the presence of files should be checked,
         * then by invoking a callback (and possibly keyfile settings plugin would
         * collect the file names to be checked and check them later). */
        if (!g_file_test(path2, G_FILE_TEST_EXISTS)) {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_INFO_MISSING_FILE,
                             _("certificate or key file '%s' does not exist"),
                             path2);
        }
        return;
    }

    if (HAS_SCHEME_PREFIX(bin, bin_len, NM_KEYFILE_CERT_SCHEME_PREFIX_PKCS11)) {
        if (nm_setting_802_1x_check_cert_scheme(bin, bin_len, NULL)
            != NM_SETTING_802_1X_CK_SCHEME_PKCS11) {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid PKCS#11 URI \"%s\""),
                             bin);
            return;
        }

        g_object_set(setting, key, bytes, NULL);
        return;
    }

    if (HAS_SCHEME_PREFIX(bin, bin_len, NM_KEYFILE_CERT_SCHEME_PREFIX_BLOB)) {
        const char     *cdata       = bin + NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_BLOB);
        gsize           cdata_len   = bin_len - NM_STRLEN(NM_KEYFILE_CERT_SCHEME_PREFIX_BLOB) - 1;
        gs_free guchar *bin_decoded = NULL;
        gsize           bin_decoded_len = 0;
        gsize           i;
        gboolean        valid_base64;
        gs_unref_bytes GBytes *val = NULL;

        /* Let's be strict here. We expect valid base64, no funny stuff!!
         * We didn't write such invalid data ourselfes and refuse to read it as blob. */
        if ((valid_base64 = (cdata_len % 4 == 0))) {
            for (i = 0; i < cdata_len; i++) {
                char c = cdata[i];

                if (!((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9')
                      || (c == '+' || c == '/'))) {
                    if (c != '=' || i < cdata_len - 2)
                        valid_base64 = FALSE;
                    else {
                        for (; i < cdata_len; i++) {
                            if (cdata[i] != '=')
                                valid_base64 = FALSE;
                        }
                    }
                    break;
                }
            }
        }
        if (valid_base64)
            bin_decoded = g_base64_decode(cdata, &bin_decoded_len);

        if (bin_decoded_len == 0) {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid key/cert value data:;base64, is not base64"));
            return;
        }

        if (nm_setting_802_1x_check_cert_scheme(bin_decoded, bin_decoded_len, NULL)
            != NM_SETTING_802_1X_CK_SCHEME_BLOB) {
            /* The blob probably starts with "file://". Setting the cert data will confuse NMSetting8021x.
             * In fact this is a limitation of NMSetting8021x which does not support setting blobs that start
             * with file://. Just warn and return TRUE to signal that we ~handled~ the setting. */
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid key/cert value data:;base64,file://"));
            return;
        }

        val = g_bytes_new_take(g_steal_pointer(&bin_decoded), bin_decoded_len);
        g_object_set(setting, key, val, NULL);
        return;
    }

    /* If not, it might be a plain path */
    path =
        nm_keyfile_detect_unqualified_path_scheme(info->base_dir, bin, bin_len, TRUE, &path_exists);
    if (path) {
        gs_unref_bytes GBytes *val = NULL;

        /* Construct the proper value as required for the PATH scheme */
        val = g_bytes_new_take(path, strlen(path) + 1);
        g_object_set(setting, key, val, NULL);

        /* Warn if the certificate didn't exist */
        if (!path_exists) {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_INFO_MISSING_FILE,
                             _("certificate or key file '%s' does not exist"),
                             path);
        }
        return;
    }

    if (nm_setting_802_1x_check_cert_scheme(bin, bin_len, NULL)
        != NM_SETTING_802_1X_CK_SCHEME_BLOB) {
        /* The blob probably starts with "file://" but contains invalid characters for a path.
         * Setting the cert data will confuse NMSetting8021x.
         * In fact, NMSetting8021x does not support setting such binary data, so just warn and
         * continue. */
        read_handle_warn(info,
                         key,
                         key,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("invalid key/cert value is not a valid blob"));
        return;
    }

    g_object_set(setting, key, bytes, NULL);
}

static int
_parity_from_char(int ch)
{
#if NM_MORE_ASSERTS > 5
    {
        static char check = 0;

        if (check == 0) {
            nm_auto_unref_gtypeclass GEnumClass *klass =
                g_type_class_ref(NM_TYPE_SETTING_SERIAL_PARITY);
            guint i;

            check = 1;

            /* In older versions, parity was G_TYPE_CHAR/gint8, and the character
             * value was stored as integer.
             * For example parity=69 equals parity=E, meaning NM_SETTING_SERIAL_PARITY_EVEN.
             *
             * That means, certain values are reserved. Assert that these numbers
             * are not reused when we extend NMSettingSerialParity enum.
             * Actually, since NM_SETTING_SERIAL_PARITY is g_param_spec_enum(),
             * we anyway cannot extend the enum without breaking API...
             *
             * [1] commit "a91e60902e libnm-core: make NMSettingSerial:parity an enum"
             * [2] https://cgit.freedesktop.org/NetworkManager/NetworkManager/commit/?id=a91e60902eabae1de93d61323dae6ac894b5d40f
             */
            g_assert(G_IS_ENUM_CLASS(klass));
            for (i = 0; i < klass->n_values; i++) {
                const GEnumValue *v   = &klass->values[i];
                int               num = v->value;

                g_assert(_parity_from_char(num) == -1);
                g_assert(!NM_IN_SET(num, 'e', 'E', 'o', 'O', 'n', 'N'));
            }
        }
    }
#endif

    switch (ch) {
    case 'E':
    case 'e':
        return NM_SETTING_SERIAL_PARITY_EVEN;
    case 'O':
    case 'o':
        return NM_SETTING_SERIAL_PARITY_ODD;
    case 'N':
    case 'n':
        return NM_SETTING_SERIAL_PARITY_NONE;
    }

    return -1;
}

static void
parity_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char           *setting_name = nm_setting_get_name(setting);
    gs_free_error GError *err          = NULL;
    int                   parity;
    gs_free char         *tmp_str = NULL;
    gint64                i64;

    /* Keyfile traditionally stored this as the ASCII value for 'E', 'o', or 'n'.
     * We now accept either that or the (case-insensitive) character itself (but
     * still always write it the old way, for backward compatibility).
     */
    tmp_str = nm_keyfile_plugin_kf_get_value(info->keyfile, setting_name, key, &err);
    if (err)
        goto out_err;

    if (tmp_str && tmp_str[0] != '\0' && tmp_str[1] == '\0') {
        /* the ASCII characters like 'E' are taken directly... */
        parity = _parity_from_char(tmp_str[0]);
        if (parity >= 0)
            goto parity_good;
    }

    i64 = _nm_utils_ascii_str_to_int64(tmp_str, 0, G_MININT, G_MAXINT, G_MININT64);
    if (i64 != G_MININT64 && errno == 0) {
        if ((parity = _parity_from_char(i64)) >= 0) {
            /* another oddity: the string is a valid number. However, if the numeric values
             * is one of the supported ASCII codes, accept it (like 69 for 'E').
             */
            goto parity_good;
        }

        /* Finally, take the numeric value as is. */
        parity = i64;
        goto parity_good;
    }

    read_handle_warn(info,
                     key,
                     key,
                     NM_KEYFILE_WARN_SEVERITY_WARN,
                     _("invalid parity value '%s'"),
                     tmp_str ?: "");
    return;

parity_good:
    nm_g_object_set_property_enum(G_OBJECT(setting),
                                  key,
                                  NM_TYPE_SETTING_SERIAL_PARITY,
                                  parity,
                                  &err);

out_err:
    if (!err)
        return;
    if (nm_keyfile_error_is_not_found(err)) {
        /* ignore such errors. The key is not present. */
        return;
    }
    read_handle_warn(info,
                     key,
                     key,
                     NM_KEYFILE_WARN_SEVERITY_WARN,
                     _("invalid setting: %s"),
                     err->message);
}

static void
team_config_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char           *setting_name = nm_setting_get_name(setting);
    gs_free char         *conf         = NULL;
    gs_free_error GError *error        = NULL;

    conf = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, key, NULL);

    g_object_set(G_OBJECT(setting), key, conf, NULL);

    if (conf && !nm_setting_verify(setting, NULL, &error)) {
        read_handle_warn(info,
                         key,
                         key,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("ignoring invalid team configuration: %s"),
                         error->message);
        g_object_set(G_OBJECT(setting), key, NULL, NULL);
    }
}

static void
bridge_vlan_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    gs_unref_ptrarray GPtrArray *vlans = NULL;
    gs_free char                *value = NULL;
    gs_free const char         **strv  = NULL;
    const char *const           *iter;
    GError                      *local = NULL;
    NMBridgeVlan                *vlan;

    value = nm_keyfile_plugin_kf_get_string(info->keyfile, nm_setting_get_name(setting), key, NULL);
    if (!value || !value[0])
        return;

    vlans = g_ptr_array_new_with_free_func((GDestroyNotify) nm_bridge_vlan_unref);

    strv = nm_utils_escaped_tokens_split(value, ",");
    if (strv) {
        for (iter = strv; *iter; iter++) {
            vlan = nm_bridge_vlan_from_str(*iter, &local);
            if (!vlan) {
                read_handle_warn(info,
                                 key,
                                 key,
                                 NM_KEYFILE_WARN_SEVERITY_WARN,
                                 "invalid bridge VLAN: %s",
                                 local->message);
                g_clear_error(&local);
                continue;
            }
            g_ptr_array_add(vlans, vlan);
        }
    }

    if (vlans->len > 0)
        g_object_set(setting, key, vlans, NULL);
}

static void
range_list_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    gs_unref_ptrarray GPtrArray *ranges = NULL;
    gs_free char                *value  = NULL;
    gs_free const char         **strv   = NULL;
    const char *const           *iter;
    GError                      *local = NULL;
    NMRange                     *range;

    value = nm_keyfile_plugin_kf_get_string(info->keyfile, nm_setting_get_name(setting), key, NULL);
    if (!value || !value[0])
        return;

    ranges = g_ptr_array_new_with_free_func((GDestroyNotify) nm_range_unref);

    strv = nm_utils_escaped_tokens_split(value, ",");
    if (strv) {
        for (iter = strv; *iter; iter++) {
            range = nm_range_from_str(*iter, &local);
            if (!range) {
                read_handle_warn(info,
                                 key,
                                 key,
                                 NM_KEYFILE_WARN_SEVERITY_WARN,
                                 "invalid range: %s",
                                 local->message);
                g_clear_error(&local);
                continue;
            }
            g_ptr_array_add(ranges, range);
        }
    }

    if (ranges->len > 0)
        g_object_set(setting, key, ranges, NULL);
}

static void
qdisc_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char                  *setting_name = nm_setting_get_name(setting);
    gs_unref_ptrarray GPtrArray *qdiscs       = NULL;
    gs_strfreev char           **keys         = NULL;
    gsize                        n_keys       = 0;
    int                          i;

    keys = nm_keyfile_plugin_kf_get_keys(info->keyfile, setting_name, &n_keys, NULL);
    if (n_keys == 0)
        return;

    qdiscs = g_ptr_array_new_with_free_func((GDestroyNotify) nm_tc_qdisc_unref);

    for (i = 0; i < n_keys; i++) {
        NMTCQdisc            *qdisc;
        const char           *qdisc_parent;
        gs_free char         *qdisc_rest = NULL;
        gs_free char         *qdisc_str  = NULL;
        gs_free_error GError *err        = NULL;

        if (!g_str_has_prefix(keys[i], "qdisc."))
            continue;

        qdisc_parent = keys[i] + sizeof("qdisc.") - 1;
        qdisc_rest   = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, keys[i], NULL);
        qdisc_str    = g_strdup_printf(
            "%s%s %s",
            _nm_utils_parse_tc_handle(qdisc_parent, NULL) != TC_H_UNSPEC ? "parent " : "",
            qdisc_parent,
            qdisc_rest);

        qdisc = nm_utils_tc_qdisc_from_str(qdisc_str, &err);
        if (!qdisc) {
            read_handle_warn(info,
                             keys[i],
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid qdisc: %s"),
                             err->message);
        } else {
            g_ptr_array_add(qdiscs, qdisc);
        }
    }

    if (qdiscs->len >= 1)
        g_object_set(setting, key, qdiscs, NULL);
}

static void
tfilter_parser(KeyfileReaderInfo *info, NMSetting *setting, const char *key)
{
    const char                  *setting_name = nm_setting_get_name(setting);
    gs_unref_ptrarray GPtrArray *tfilters     = NULL;
    gs_strfreev char           **keys         = NULL;
    gsize                        n_keys       = 0;
    int                          i;

    keys = nm_keyfile_plugin_kf_get_keys(info->keyfile, setting_name, &n_keys, NULL);
    if (n_keys == 0)
        return;

    tfilters = g_ptr_array_new_with_free_func((GDestroyNotify) nm_tc_tfilter_unref);

    for (i = 0; i < n_keys; i++) {
        NMTCTfilter          *tfilter;
        const char           *tfilter_parent;
        gs_free char         *tfilter_rest = NULL;
        gs_free char         *tfilter_str  = NULL;
        gs_free_error GError *err          = NULL;

        if (!g_str_has_prefix(keys[i], "tfilter."))
            continue;

        tfilter_parent = keys[i] + sizeof("tfilter.") - 1;
        tfilter_rest = nm_keyfile_plugin_kf_get_string(info->keyfile, setting_name, keys[i], NULL);
        tfilter_str  = g_strdup_printf(
            "%s%s %s",
            _nm_utils_parse_tc_handle(tfilter_parent, NULL) != TC_H_UNSPEC ? "parent " : "",
            tfilter_parent,
            tfilter_rest);

        tfilter = nm_utils_tc_tfilter_from_str(tfilter_str, &err);
        if (!tfilter) {
            read_handle_warn(info,
                             keys[i],
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid tfilter: %s"),
                             err->message);
        } else {
            g_ptr_array_add(tfilters, tfilter);
        }
    }

    if (tfilters->len >= 1)
        g_object_set(setting, key, tfilters, NULL);
}

/*****************************************************************************/

/* Some setting properties also contain setting names, such as
 * NMSettingConnection's 'type' property (which specifies the base type of the
 * connection, eg ethernet or wifi) or the 802-11-wireless setting's
 * 'security' property which specifies whether or not the AP requires
 * encryption.  This function handles translating those properties' values
 * from the real setting name to the more-readable alias.
 */
static void
setting_alias_writer(KeyfileWriterInfo *info,
                     NMSetting         *setting,
                     const char        *key,
                     const GValue      *value)
{
    const char *str, *alias;

    str   = g_value_get_string(value);
    alias = nm_keyfile_plugin_get_alias_for_setting_name(str);
    nm_keyfile_plugin_kf_set_string(info->keyfile, nm_setting_get_name(setting), key, alias ?: str);
}

static void
sriov_vfs_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    GPtrArray *vfs;
    guint      i;

    vfs = g_value_get_boxed(value);
    if (!vfs)
        return;

    for (i = 0; i < vfs->len; i++) {
        const NMSriovVF *vf       = vfs->pdata[i];
        gs_free char    *kf_value = NULL;
        char             kf_key[32];

        kf_value = nm_utils_sriov_vf_to_str(vf, TRUE, NULL);
        if (!kf_value)
            continue;

        nm_sprintf_buf(kf_key, "vf.%u", nm_sriov_vf_get_index(vf));

        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        nm_setting_get_name(setting),
                                        kf_key,
                                        kf_value);
    }
}

static void
write_array_of_uint(GKeyFile *file, NMSetting *setting, const char *key, const GValue *value)
{
    GArray *array;

    array = g_value_get_boxed(value);

    nm_assert(!array || g_array_get_element_size(array) == sizeof(guint));

    if (!array || !array->len)
        return;

    nm_keyfile_plugin_kf_set_integer_list_uint(file,
                                               nm_setting_get_name(setting),
                                               key,
                                               &nm_g_array_first(array, const guint),
                                               array->len);
}

static void
dns_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    char **list;

    list = g_value_get_boxed(value);
    if (list && list[0]) {
        nm_keyfile_plugin_kf_set_string_list(info->keyfile,
                                             nm_setting_get_name(setting),
                                             key,
                                             (const char **) list,
                                             g_strv_length(list));
    }
}

static void
ip6_addr_gen_mode_writer(KeyfileWriterInfo *info,
                         NMSetting         *setting,
                         const char        *key,
                         const GValue      *value)
{
    NMSettingIP6ConfigAddrGenMode addr_gen_mode;
    gs_free char                 *str = NULL;

    addr_gen_mode = (NMSettingIP6ConfigAddrGenMode) g_value_get_int(value);
    if (addr_gen_mode != NM_SETTING_IP6_CONFIG_ADDR_GEN_MODE_DEFAULT_OR_EUI64) {
        str = nm_utils_enum_to_str(nm_setting_ip6_config_addr_gen_mode_get_type(), addr_gen_mode);
        nm_keyfile_plugin_kf_set_string(info->keyfile, nm_setting_get_name(setting), key, str);
    }
}

static void
write_ip_values(GKeyFile   *file,
                const char *setting_name,
                GPtrArray  *array,
                const char *gateway,
                gboolean    is_route)
{
    if (array->len > 0) {
        nm_auto_str_buf NMStrBuf output = NM_STR_BUF_INIT(2 * INET_ADDRSTRLEN + 10, FALSE);
        int                      addr_family;
        guint                    i;
        const char              *addr;
        const char              *gw;
        guint32                  plen;
        char                     key_name[64];
        char                    *key_name_idx;

        addr_family =
            nm_streq(setting_name, NM_SETTING_IP4_CONFIG_SETTING_NAME) ? AF_INET : AF_INET6;

        strcpy(key_name, is_route ? "route" : "address");
        key_name_idx = key_name + strlen(key_name);

        for (i = 0; i < array->len; i++) {
            gint64 metric = -1;

            if (is_route) {
                NMIPRoute *route = array->pdata[i];

                addr   = nm_ip_route_get_dest(route);
                plen   = nm_ip_route_get_prefix(route);
                gw     = nm_ip_route_get_next_hop(route);
                metric = nm_ip_route_get_metric(route);
            } else {
                NMIPAddress *address = array->pdata[i];

                addr = nm_ip_address_get_address(address);
                plen = nm_ip_address_get_prefix(address);
                gw   = (i == 0) ? gateway : NULL;
            }

            nm_str_buf_set_size(&output, 0, FALSE, FALSE);
            nm_str_buf_append_printf(&output, "%s/%u", addr, plen);
            if (metric != -1 || gw) {
                /* Older versions of the plugin do not support the form
                 * "a.b.c.d/plen,,metric", so, we always have to write the
                 * gateway, even if there isn't one.
                 * The current version supports reading of the above form.
                 */
                if (!gw) {
                    if (addr_family == AF_INET)
                        gw = "0.0.0.0";
                    else
                        gw = "::";
                }

                nm_str_buf_append_c(&output, ',');
                nm_str_buf_append(&output, gw);
                if (is_route && metric != -1)
                    nm_str_buf_append_printf(&output, ",%lu", (unsigned long) metric);
            }

            sprintf(key_name_idx, "%u", i + 1);
            nm_keyfile_plugin_kf_set_string(file,
                                            setting_name,
                                            key_name,
                                            nm_str_buf_get_str(&output));

            if (is_route) {
                gs_free char *attributes = NULL;

                attributes =
                    nm_utils_format_variant_attributes(_nm_ip_route_get_attributes(array->pdata[i]),
                                                       ',',
                                                       '=');
                if (attributes) {
                    g_strlcat(key_name, "_options", sizeof(key_name));
                    nm_keyfile_plugin_kf_set_string(file, setting_name, key_name, attributes);
                }
            }
        }
    }
}

static void
addr_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    GPtrArray  *array;
    const char *setting_name = nm_setting_get_name(setting);
    const char *gateway      = nm_setting_ip_config_get_gateway(NM_SETTING_IP_CONFIG(setting));

    array = (GPtrArray *) g_value_get_boxed(value);
    if (array && array->len)
        write_ip_values(info->keyfile, setting_name, array, gateway, FALSE);
}

static void
route_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    GPtrArray  *array;
    const char *setting_name = nm_setting_get_name(setting);

    array = (GPtrArray *) g_value_get_boxed(value);
    if (array && array->len)
        write_ip_values(info->keyfile, setting_name, array, NULL, TRUE);
}

static void
bridge_vlan_writer(KeyfileWriterInfo *info,
                   NMSetting         *setting,
                   const char        *key,
                   const GValue      *value)
{
    GPtrArray *vlans;

    vlans = g_value_get_boxed(value);
    if (vlans && vlans->len > 0) {
        const guint              string_initial_size = vlans->len * 10u;
        nm_auto_str_buf NMStrBuf string              = NM_STR_BUF_INIT(string_initial_size, FALSE);
        guint                    i;

        for (i = 0; i < vlans->len; i++) {
            gs_free char *vlan_str = NULL;

            vlan_str = nm_bridge_vlan_to_str(vlans->pdata[i], NULL);
            if (i > 0)
                nm_str_buf_append_c(&string, ',');
            nm_utils_escaped_tokens_escape_strbuf_assert(vlan_str, ",", &string);
        }

        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        nm_setting_get_name(setting),
                                        "vlans",
                                        nm_str_buf_get_str(&string));
    }
}

static void
range_list_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    GPtrArray *ranges;

    ranges = g_value_get_boxed(value);
    if (ranges && ranges->len > 0) {
        const guint              string_initial_size = ranges->len * 10u;
        nm_auto_str_buf NMStrBuf string              = NM_STR_BUF_INIT(string_initial_size, FALSE);
        guint                    i;

        for (i = 0; i < ranges->len; i++) {
            gs_free char *range_str = NULL;

            range_str = nm_range_to_str(ranges->pdata[i]);
            if (i > 0)
                nm_str_buf_append_c(&string, ',');
            nm_utils_escaped_tokens_escape_strbuf_assert(range_str, ",", &string);
        }

        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        nm_setting_get_name(setting),
                                        key,
                                        nm_str_buf_get_str(&string));
    }
}

static void
wired_s390_options_parser_full(KeyfileReaderInfo        *info,
                               const NMMetaSettingInfo  *setting_info,
                               const NMSettInfoProperty *property_info,
                               const ParseInfoProperty  *pip,
                               NMSetting                *setting)
{
    NMSettingWired    *s_wired = NM_SETTING_WIRED(setting);
    gs_strfreev char **keys    = NULL;
    gsize              n_keys;
    gsize              i;

    keys = nm_keyfile_plugin_kf_get_keys(info->keyfile,
                                         ETHERNET_S390_OPTIONS_GROUP_NAME,
                                         &n_keys,
                                         NULL);
    for (i = 0; i < n_keys; i++) {
        gs_free char *value       = NULL;
        gs_free char *key_to_free = NULL;

        value = nm_keyfile_plugin_kf_get_string(info->keyfile,
                                                ETHERNET_S390_OPTIONS_GROUP_NAME,
                                                keys[i],
                                                NULL);
        if (!value)
            continue;

        /* Here we don't verify the key/value further. If the file contains invalid keys,
         * we will later reject the connection as invalid. */
        nm_setting_wired_add_s390_option(s_wired,
                                         nm_keyfile_key_decode(keys[i], &key_to_free),
                                         value);
    }
}

static void
wired_s390_options_writer_full(KeyfileWriterInfo        *info,
                               const NMMetaSettingInfo  *setting_info,
                               const NMSettInfoProperty *property_info,
                               const ParseInfoProperty  *pip,
                               NMSetting                *setting)
{
    NMSettingWired *s_wired = NM_SETTING_WIRED(setting);
    guint           i, n;
    const char     *setting_alias;

    n = nm_setting_wired_get_num_s390_options(s_wired);
    if (n == 0)
        return;

    setting_alias = nm_keyfile_plugin_get_alias_for_setting_name(NM_SETTING_WIRED_SETTING_NAME);
    if (!g_key_file_has_group(info->keyfile, NM_SETTING_WIRED_SETTING_NAME)
        && !g_key_file_has_group(info->keyfile, setting_alias)) {
        /* groups in the keyfile are ordered. When we are about to add [ethernet-s390-options],
         * we want to also have an [ethernet] group, first. */

        nm_keyfile_add_group(info->keyfile, setting_alias ?: NM_SETTING_WIRED_SETTING_NAME);
    }

    for (i = 0; i < n; i++) {
        gs_free char *key_to_free = NULL;
        const char   *opt_key;
        const char   *opt_val;

        nm_setting_wired_get_s390_option(s_wired, i, &opt_key, &opt_val);
        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        ETHERNET_S390_OPTIONS_GROUP_NAME,
                                        nm_keyfile_key_encode(opt_key, &key_to_free),
                                        opt_val);
    }
}

static void
ip_routing_rule_writer_full(KeyfileWriterInfo        *info,
                            const NMMetaSettingInfo  *setting_info,
                            const NMSettInfoProperty *property_info,
                            const ParseInfoProperty  *pip,
                            NMSetting                *setting)
{
    const char        *setting_name = nm_setting_get_name(setting);
    NMSettingIPConfig *s_ip         = NM_SETTING_IP_CONFIG(setting);
    guint              i, j, n;
    char               key_name_full[100] = "routing-rule";
    char              *key_name_num       = &key_name_full[NM_STRLEN("routing-rule")];

    n = nm_setting_ip_config_get_num_routing_rules(s_ip);
    j = 0;
    for (i = 0; i < n; i++) {
        NMIPRoutingRule *rule = nm_setting_ip_config_get_routing_rule(s_ip, i);
        gs_free char    *str  = NULL;

        str =
            nm_ip_routing_rule_to_string(rule, NM_IP_ROUTING_RULE_AS_STRING_FLAGS_NONE, NULL, NULL);
        if (!str)
            continue;

        sprintf(key_name_num, "%u", ++j);
        nm_keyfile_plugin_kf_set_string(info->keyfile, setting_name, key_name_full, str);
    }
}

static void
qdisc_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    nm_auto_free_gstring GString *key_name  = NULL;
    nm_auto_free_gstring GString *value_str = NULL;
    GPtrArray                    *array;
    guint                         i;

    array = g_value_get_boxed(value);
    if (!array || !array->len)
        return;

    for (i = 0; i < array->len; i++) {
        NMTCQdisc *qdisc = array->pdata[i];

        nm_gstring_prepare(&key_name);
        nm_gstring_prepare(&value_str);

        g_string_append(key_name, "qdisc.");
        _nm_utils_string_append_tc_parent(key_name, NULL, nm_tc_qdisc_get_parent(qdisc));
        _nm_utils_string_append_tc_qdisc_rest(value_str, qdisc);

        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        NM_SETTING_TC_CONFIG_SETTING_NAME,
                                        key_name->str,
                                        value_str->str);
    }
}

static void
tfilter_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    nm_auto_free_gstring GString *key_name  = NULL;
    nm_auto_free_gstring GString *value_str = NULL;
    GPtrArray                    *array;
    guint                         i;

    array = g_value_get_boxed(value);
    if (!array || !array->len)
        return;

    for (i = 0; i < array->len; i++) {
        NMTCTfilter *tfilter = array->pdata[i];

        nm_gstring_prepare(&key_name);
        nm_gstring_prepare(&value_str);

        g_string_append(key_name, "tfilter.");
        _nm_utils_string_append_tc_parent(key_name, NULL, nm_tc_tfilter_get_parent(tfilter));
        _nm_utils_string_append_tc_tfilter_rest(value_str, tfilter, NULL);

        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        NM_SETTING_TC_CONFIG_SETTING_NAME,
                                        key_name->str,
                                        value_str->str);
    }
}

static void
_writer_full_strdict_data(KeyfileWriterInfo        *info,
                          const NMMetaSettingInfo  *setting_info,
                          const NMSettInfoProperty *property_info,
                          const ParseInfoProperty  *pip,
                          NMSetting                *setting)
{
    GHashTable                *hash;
    NMUtilsNamedValue          data_static[300u / sizeof(NMUtilsNamedValue)];
    gs_free NMUtilsNamedValue *data_free = NULL;
    const NMUtilsNamedValue   *data;
    guint                      data_len;
    char                       full_key_static[NM_STRLEN(STRDICT_DATA_PREFIX) + 300u];
    guint                      i;
    gboolean                   is_exid;

    if (NM_IS_SETTING_OVS_EXTERNAL_IDS(setting)) {
        nm_assert(nm_streq(property_info->name, NM_SETTING_OVS_EXTERNAL_IDS_DATA));
        is_exid = TRUE;
    } else {
        nm_assert(NM_IS_SETTING_OVS_OTHER_CONFIG(setting));
        nm_assert(nm_streq(property_info->name, NM_SETTING_OVS_OTHER_CONFIG_DATA));
        is_exid = FALSE;
    }

    hash = is_exid ? _nm_setting_ovs_external_ids_get_data(NM_SETTING_OVS_EXTERNAL_IDS(setting))
                   : _nm_setting_ovs_other_config_get_data(NM_SETTING_OVS_OTHER_CONFIG(setting));
    if (!hash)
        return;

    data = nm_utils_named_values_from_strdict(hash, &data_len, data_static, &data_free);
    if (data_len == 0)
        return;

    memcpy(full_key_static, STRDICT_DATA_PREFIX, NM_STRLEN(STRDICT_DATA_PREFIX));

    for (i = 0; i < data_len; i++) {
        const char   *key                 = data[i].name;
        const char   *val                 = data[i].value_str;
        gs_free char *escaped_key_to_free = NULL;
        const char   *escaped_key;
        gsize         len;
        gs_free char *full_key_free = NULL;
        char         *full_key      = full_key_static;

        escaped_key = nm_keyfile_key_encode(key, &escaped_key_to_free);

        len = strlen(escaped_key) + 1u;
        if (len >= G_N_ELEMENTS(full_key_static) - NM_STRLEN(STRDICT_DATA_PREFIX)) {
            full_key_free = g_new(char, NM_STRLEN(STRDICT_DATA_PREFIX) + len);
            full_key      = full_key_free;
            memcpy(full_key, STRDICT_DATA_PREFIX, NM_STRLEN(STRDICT_DATA_PREFIX));
        }
        memcpy(&full_key[NM_STRLEN(STRDICT_DATA_PREFIX)], escaped_key, len);

        nm_keyfile_plugin_kf_set_string(info->keyfile,
                                        is_exid ? NM_SETTING_OVS_EXTERNAL_IDS_SETTING_NAME
                                                : NM_SETTING_OVS_OTHER_CONFIG_SETTING_NAME,
                                        full_key,
                                        val);
    }
}

static void
write_hash_of_string(GKeyFile *file, NMSetting *setting, const char *key, const GValue *value)
{
    GHashTable          *hash;
    const char          *group_name  = nm_setting_get_name(setting);
    gboolean             vpn_secrets = FALSE;
    gs_free const char **keys        = NULL;
    guint                i, l;

    nm_assert((NM_IS_SETTING_VPN(setting) && nm_streq(key, NM_SETTING_VPN_DATA))
              || (NM_IS_SETTING_VPN(setting) && nm_streq(key, NM_SETTING_VPN_SECRETS))
              || (NM_IS_SETTING_BOND(setting) && nm_streq(key, NM_SETTING_BOND_OPTIONS))
              || (NM_IS_SETTING_USER(setting) && nm_streq(key, NM_SETTING_USER_DATA)));

    /* Write VPN secrets out to a different group to keep them separate */
    if (NM_IS_SETTING_VPN(setting) && nm_streq(key, NM_SETTING_VPN_SECRETS)) {
        group_name  = NM_KEYFILE_GROUP_VPN_SECRETS;
        vpn_secrets = TRUE;
    }

    hash = g_value_get_boxed(value);

    keys = nm_strdict_get_keys(hash, TRUE, &l);
    for (i = 0; i < l; i++) {
        gs_free char *to_free = NULL;
        const char   *property, *data;

        property = keys[i];

        /* Handle VPN secrets specially; they are nested in the property's hash;
         * we don't want to write them if the secret is not saved, not required,
         * or owned by a user's secret agent.
         */
        if (vpn_secrets) {
            NMSettingSecretFlags secret_flags = NM_SETTING_SECRET_FLAG_NONE;

            if (!nm_setting_get_secret_flags(setting, property, &secret_flags, NULL))
                nm_assert_not_reached();
            if (!_secret_flags_persist_secret(secret_flags))
                continue;
        }

        data = g_hash_table_lookup(hash, property);
        nm_keyfile_plugin_kf_set_string(file,
                                        group_name,
                                        nm_keyfile_key_encode(property, &to_free),
                                        data);
    }
}

static void
ssid_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    GBytes       *bytes;
    const guint8 *ssid_data;
    gsize         ssid_len;
    const char   *setting_name = nm_setting_get_name(setting);
    gboolean      new_format   = TRUE;
    gsize         semicolons   = 0;
    gsize         i;

    g_return_if_fail(G_VALUE_HOLDS(value, G_TYPE_BYTES));

    bytes = g_value_get_boxed(value);
    if (!bytes)
        return;
    ssid_data = g_bytes_get_data(bytes, &ssid_len);
    if (!ssid_data || !ssid_len) {
        nm_keyfile_plugin_kf_set_string(info->keyfile, setting_name, key, "");
        return;
    }

    /* Check whether each byte is printable.  If not, we have to use an
     * integer list, otherwise we can just use a string.
     */
    for (i = 0; i < ssid_len; i++) {
        const char c = ssid_data[i];

        if (!g_ascii_isprint(c)) {
            new_format = FALSE;
            break;
        }
        if (c == ';')
            semicolons++;
    }

    if (new_format) {
        gs_free char *ssid = NULL;

        if (semicolons == 0)
            ssid = g_strndup((char *) ssid_data, ssid_len);
        else {
            /* Escape semicolons with backslashes to make strings
             * containing ';', such as '16;17;' unambiguous */
            gsize j = 0;

            ssid = g_malloc(ssid_len + semicolons + 1);
            for (i = 0; i < ssid_len; i++) {
                if (ssid_data[i] == ';')
                    ssid[j++] = '\\';
                ssid[j++] = ssid_data[i];
            }
            ssid[j] = '\0';
        }
        nm_keyfile_plugin_kf_set_string(info->keyfile, setting_name, key, ssid);
    } else
        nm_keyfile_plugin_kf_set_integer_list_uint8(info->keyfile,
                                                    setting_name,
                                                    key,
                                                    ssid_data,
                                                    ssid_len);
}

static void
password_raw_writer(KeyfileWriterInfo *info,
                    NMSetting         *setting,
                    const char        *key,
                    const GValue      *value)
{
    const char   *setting_name = nm_setting_get_name(setting);
    GBytes       *array;
    gsize         len;
    const guint8 *data;

    g_return_if_fail(G_VALUE_HOLDS(value, G_TYPE_BYTES));

    array = (GBytes *) g_value_get_boxed(value);
    if (!array)
        return;
    data = g_bytes_get_data(array, &len);
    if (!data)
        len = 0;
    nm_keyfile_plugin_kf_set_integer_list_uint8(info->keyfile, setting_name, key, data, len);
}

/*****************************************************************************/

static void
cert_writer_default(NMConnection                     *connection,
                    GKeyFile                         *file,
                    NMSetting8021x                   *setting,
                    const char                       *setting_name,
                    const NMSetting8021xSchemeVtable *vtable)
{
    NMSetting8021xCKScheme scheme;

    scheme = vtable->scheme_func(setting);
    if (scheme == NM_SETTING_802_1X_CK_SCHEME_PATH) {
        gs_free char *path_free = NULL;
        gs_free char *base_dir  = NULL;
        gs_free char *tmp       = NULL;
        const char   *path;

        path = vtable->path_func(setting);
        g_assert(path);

        /* If the path is relative, make it an absolute path.
         * Relative paths make a keyfile not easily usable in another
         * context. */
        if (path[0] && path[0] != '/') {
            base_dir  = g_get_current_dir();
            path_free = g_strconcat(base_dir, "/", path, NULL);
            path      = path_free;
        } else
            base_dir = g_path_get_dirname(path);

        /* path cannot start with "file://" or "data:;base64,", because it is an absolute path.
         * Still, make sure that a prefix-less path will be recognized. This can happen
         * for example if the path is longer then 500 chars. */
        tmp = nm_keyfile_detect_unqualified_path_scheme(base_dir, path, -1, FALSE, NULL);
        if (tmp)
            nm_clear_g_free(&tmp);
        else {
            tmp  = g_strconcat(NM_KEYFILE_CERT_SCHEME_PREFIX_PATH, path, NULL);
            path = tmp;
        }

        /* Path contains at least a '/', hence it cannot be recognized as the old
         * binary format consisting of a list of integers. */

        nm_keyfile_plugin_kf_set_string(file, setting_name, vtable->setting_key, path);
    } else if (scheme == NM_SETTING_802_1X_CK_SCHEME_BLOB) {
        GBytes       *blob;
        const guint8 *blob_data;
        gsize         blob_len;
        gs_free char *blob_base64 = NULL;
        gs_free char *val         = NULL;

        blob = vtable->blob_func(setting);
        g_assert(blob);
        blob_data = g_bytes_get_data(blob, &blob_len);

        blob_base64 = g_base64_encode(blob_data, blob_len);
        val         = g_strconcat(NM_KEYFILE_CERT_SCHEME_PREFIX_BLOB, blob_base64, NULL);

        nm_keyfile_plugin_kf_set_string(file, setting_name, vtable->setting_key, val);
    } else if (scheme == NM_SETTING_802_1X_CK_SCHEME_PKCS11) {
        nm_keyfile_plugin_kf_set_string(file,
                                        setting_name,
                                        vtable->setting_key,
                                        vtable->uri_func(setting));
    } else {
        /* scheme_func() returns UNKNOWN in all other cases. The only valid case
         * where a scheme is allowed to be UNKNOWN, is unsetting the value. In this
         * case, we don't expect the writer to be called, because the default value
         * will not be serialized.
         * The only other reason for the scheme to be UNKNOWN is an invalid cert.
         * But our connection verifies, so that cannot happen either. */
        g_return_if_reached();
    }
}

static void
cert_writer(KeyfileWriterInfo *info, NMSetting *setting, const char *key, const GValue *value)
{
    const NMSetting8021xSchemeVtable *vtable;
    const char                       *setting_name;

    vtable = nm_setting_8021x_scheme_vtable_by_setting_key(key);
    if (!vtable)
        g_return_if_reached();

    setting_name = nm_setting_get_name(NM_SETTING(setting));

    if (info->write_handler) {
        NMKeyfileHandlerData handler_data;

        _key_file_handler_data_init_write(&handler_data,
                                          NM_KEYFILE_HANDLER_TYPE_WRITE_CERT,
                                          info,
                                          setting_name,
                                          vtable->setting_key,
                                          setting,
                                          key);
        handler_data.write_cert = (NMKeyfileHandlerDataWriteCert) {
            .vtable = vtable,
        };

        if (info->write_handler(info->connection,
                                info->keyfile,
                                NM_KEYFILE_HANDLER_TYPE_WRITE_CERT,
                                &handler_data,
                                info->user_data))
            return;
        if (info->error)
            return;
    }

    cert_writer_default(info->connection,
                        info->keyfile,
                        NM_SETTING_802_1X(setting),
                        setting_name,
                        vtable);
}

/*****************************************************************************/

struct _ParseInfoProperty {
    const char *property_name;
    union {
        void (*parser)(KeyfileReaderInfo *info, NMSetting *setting, const char *key);
        void (*parser_full)(KeyfileReaderInfo        *info,
                            const NMMetaSettingInfo  *setting_info,
                            const NMSettInfoProperty *property_info,
                            const ParseInfoProperty  *pip,
                            NMSetting                *setting);
    };
    union {
        void (*writer)(KeyfileWriterInfo *info,
                       NMSetting         *setting,
                       const char        *key,
                       const GValue      *value);
        void (*writer_full)(KeyfileWriterInfo        *info,
                            const NMMetaSettingInfo  *setting_info,
                            const NMSettInfoProperty *property_info,
                            const ParseInfoProperty  *pip,
                            NMSetting                *setting);
    };
    bool parser_skip;
    bool parser_no_check_key : 1;
    bool writer_skip : 1;
    bool has_writer_full : 1;
    bool has_parser_full : 1;

    /* usually, we skip to write values that have their
     * default value. By setting this flag to TRUE, also
     * default values are written. */
    bool writer_persist_default : 1;

    /*  This flag indicates that the property should always
     * be written to keyfile, even if it's the default.
     * This is currently only implemented for STRV properties. */
    bool always_write : 1;
};

#define PARSE_INFO_PROPERTY(_property_name, ...) \
    (&((const ParseInfoProperty) {.property_name = _property_name, __VA_ARGS__}))

#define PARSE_INFO_PROPERTIES(...)                      \
    .properties = ((const ParseInfoProperty *const[]) { \
        __VA_ARGS__ NULL,                               \
    })

typedef struct {
    const ParseInfoProperty *const *properties;
} ParseInfoSetting;

#define PARSE_INFO_SETTING(setting_type, ...) \
    [setting_type] = (&((const ParseInfoSetting) {__VA_ARGS__}))

static const ParseInfoSetting *const parse_infos[_NM_META_SETTING_TYPE_NUM] = {
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_WIRELESS,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_WIRELESS_BSSID, .parser = mac_address_parser_ETHER, ),
            PARSE_INFO_PROPERTY(NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS,
                                .parser = mac_address_parser_ETHER_cloned, ),
            PARSE_INFO_PROPERTY(NM_SETTING_WIRELESS_MAC_ADDRESS,
                                .parser = mac_address_parser_ETHER, ),
            PARSE_INFO_PROPERTY(NM_SETTING_WIRELESS_SEEN_BSSIDS,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_WIRELESS_SSID,
                                .parser = ssid_parser,
                                .writer = ssid_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_802_1X,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_802_1X_CA_CERT,
                                                  .parser = cert_parser,
                                                  .writer = cert_writer, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_802_1X_CLIENT_CERT,
                                                  .parser = cert_parser,
                                                  .writer = cert_writer, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_802_1X_PASSWORD_RAW,
                                                  .parser = password_raw_parser,
                                                  .writer = password_raw_writer, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_802_1X_PHASE2_CA_CERT,
                                                  .parser = cert_parser,
                                                  .writer = cert_writer, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_802_1X_PHASE2_CLIENT_CERT,
                                                  .parser = cert_parser,
                                                  .writer = cert_writer, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_802_1X_PHASE2_PRIVATE_KEY,
                                                  .parser = cert_parser,
                                                  .writer = cert_writer, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_802_1X_PRIVATE_KEY,
                                                  .parser = cert_parser,
                                                  .writer = cert_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_WIRED,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_WIRED_CLONED_MAC_ADDRESS,
                                .parser = mac_address_parser_ETHER_cloned, ),
            PARSE_INFO_PROPERTY(NM_SETTING_WIRED_MAC_ADDRESS, .parser = mac_address_parser_ETHER, ),
            PARSE_INFO_PROPERTY(NM_SETTING_WIRED_S390_OPTIONS,
                                .parser_no_check_key = TRUE,
                                .parser_full         = wired_s390_options_parser_full,
                                .writer_full         = wired_s390_options_writer_full,
                                .has_parser_full     = TRUE,
                                .has_writer_full     = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_BLUETOOTH,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_BLUETOOTH_BDADDR,
                                                  .parser = mac_address_parser_ETHER, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_BOND,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_BOND_OPTIONS, .parser_no_check_key = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_BRIDGE,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_BRIDGE_MAC_ADDRESS,
                                                  .parser = mac_address_parser_ETHER, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_BRIDGE_VLANS,
                                                  .parser_no_check_key = TRUE,
                                                  .parser              = bridge_vlan_parser,
                                                  .writer = bridge_vlan_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_OVS_PORT,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_OVS_PORT_TRUNKS,
                                                  .parser_no_check_key = TRUE,
                                                  .parser              = range_list_parser,
                                                  .writer              = range_list_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_BRIDGE_PORT,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_BRIDGE_PORT_VLANS,
                                                  .parser_no_check_key = TRUE,
                                                  .parser              = bridge_vlan_parser,
                                                  .writer = bridge_vlan_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_CONNECTION,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_CONNECTION_READ_ONLY,
                                                  .parser_skip = TRUE,
                                                  .writer_skip = TRUE, ),
                              PARSE_INFO_PROPERTY(NM_SETTING_CONNECTION_TYPE,
                                                  .parser = setting_alias_parser,
                                                  .writer = setting_alias_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_INFINIBAND,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_INFINIBAND_MAC_ADDRESS,
                                                  .parser = mac_address_parser_INFINIBAND, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_IP4_CONFIG,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_ADDRESSES,
                                .parser_no_check_key = TRUE,
                                .parser              = ip_address_or_route_parser,
                                .writer              = addr_writer, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_DNS,
                                .parser_no_check_key = TRUE,
                                .parser              = ip_dns_parser,
                                .writer              = dns_writer, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_DNS_OPTIONS, .always_write = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_GATEWAY, .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_ROUTES,
                                .parser_no_check_key = TRUE,
                                .parser              = ip_address_or_route_parser,
                                .writer              = route_writer, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_ROUTING_RULES,
                                .parser_no_check_key = TRUE,
                                .parser_full         = ip_routing_rule_parser_full,
                                .writer_full         = ip_routing_rule_writer_full,
                                .has_parser_full     = TRUE,
                                .has_writer_full     = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_IP6_CONFIG,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_IP6_CONFIG_ADDR_GEN_MODE,
                                .parser_no_check_key    = TRUE,
                                .parser                 = ip6_addr_gen_mode_parser,
                                .writer                 = ip6_addr_gen_mode_writer,
                                .writer_persist_default = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_ADDRESSES,
                                .parser_no_check_key = TRUE,
                                .parser              = ip_address_or_route_parser,
                                .writer              = addr_writer, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_DNS,
                                .parser_no_check_key = TRUE,
                                .parser              = ip_dns_parser,
                                .writer              = dns_writer, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_DNS_OPTIONS, .always_write = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_GATEWAY, .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_ROUTES,
                                .parser_no_check_key = TRUE,
                                .parser              = ip_address_or_route_parser,
                                .writer              = route_writer, ),
            PARSE_INFO_PROPERTY(NM_SETTING_IP_CONFIG_ROUTING_RULES,
                                .parser_no_check_key = TRUE,
                                .parser_full         = ip_routing_rule_parser_full,
                                .writer_full         = ip_routing_rule_writer_full,
                                .has_parser_full     = TRUE,
                                .has_writer_full     = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_OVS_EXTERNAL_IDS,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_OVS_EXTERNAL_IDS_DATA,
                                                  .parser_no_check_key = TRUE,
                                                  .parser_full         = _parser_full_strdict_data,
                                                  .writer_full         = _writer_full_strdict_data,
                                                  .has_parser_full     = TRUE,
                                                  .has_writer_full     = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_OVS_OTHER_CONFIG,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_OVS_OTHER_CONFIG_DATA,
                                                  .parser_no_check_key = TRUE,
                                                  .parser_full         = _parser_full_strdict_data,
                                                  .writer_full         = _writer_full_strdict_data,
                                                  .has_parser_full     = TRUE,
                                                  .has_writer_full     = TRUE, ), ), ),
    PARSE_INFO_SETTING(NM_META_SETTING_TYPE_SERIAL,
                       PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_SERIAL_PARITY,
                                                                 .parser = parity_parser, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_SRIOV,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_SRIOV_VFS,
                                                  .parser_no_check_key = TRUE,
                                                  .parser              = sriov_vfs_parser,
                                                  .writer              = sriov_vfs_writer, ), ), ),
    PARSE_INFO_SETTING(NM_META_SETTING_TYPE_TC_CONFIG,
                       PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_TC_CONFIG_QDISCS,
                                                                 .parser_no_check_key = TRUE,
                                                                 .parser = qdisc_parser,
                                                                 .writer = qdisc_writer, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TC_CONFIG_TFILTERS,
                                                                 .parser_no_check_key = TRUE,
                                                                 .parser = tfilter_parser,
                                                                 .writer = tfilter_writer, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_TEAM,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_CONFIG, .parser = team_config_parser, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_LINK_WATCHERS,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_MCAST_REJOIN_COUNT,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_MCAST_REJOIN_INTERVAL,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_NOTIFY_PEERS_COUNT,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_NOTIFY_PEERS_INTERVAL,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER, .parser_skip = TRUE, .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_ACTIVE,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_AGG_SELECT_POLICY,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_FAST_RATE,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_HWADDR_POLICY,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_MIN_PORTS,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_SYS_PRIO,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_TX_BALANCER,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_TX_BALANCER_INTERVAL,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_TEAM_RUNNER_TX_HASH,
                                .parser_skip = TRUE,
                                .writer_skip = TRUE, ), ), ),
    PARSE_INFO_SETTING(NM_META_SETTING_TYPE_TEAM_PORT,
                       PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_TEAM_CONFIG,
                                                                 .parser = team_config_parser, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TEAM_PORT_LACP_KEY,
                                                                 .parser_skip = TRUE,
                                                                 .writer_skip = TRUE, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TEAM_PORT_LACP_PRIO,
                                                                 .parser_skip = TRUE,
                                                                 .writer_skip = TRUE, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TEAM_PORT_LINK_WATCHERS,
                                                                 .parser_skip = TRUE,
                                                                 .writer_skip = TRUE, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TEAM_PORT_PRIO,
                                                                 .parser_skip = TRUE,
                                                                 .writer_skip = TRUE, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TEAM_PORT_QUEUE_ID,
                                                                 .parser_skip = TRUE,
                                                                 .writer_skip = TRUE, ),
                                             PARSE_INFO_PROPERTY(NM_SETTING_TEAM_PORT_STICKY,
                                                                 .parser_skip = TRUE,
                                                                 .writer_skip = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_USER,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_USER_DATA, .parser_no_check_key = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_VLAN,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_VLAN_FLAGS, .writer_persist_default = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_VPN,
        PARSE_INFO_PROPERTIES(
            PARSE_INFO_PROPERTY(NM_SETTING_VPN_DATA, .parser_no_check_key = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_VPN_PERSISTENT, .parser_no_check_key = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_VPN_SECRETS, .parser_no_check_key = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_VPN_SERVICE_TYPE, .parser_no_check_key = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_VPN_TIMEOUT, .parser_no_check_key = TRUE, ),
            PARSE_INFO_PROPERTY(NM_SETTING_VPN_USER_NAME, .parser_no_check_key = TRUE, ), ), ),
    PARSE_INFO_SETTING(
        NM_META_SETTING_TYPE_WIMAX,
        PARSE_INFO_PROPERTIES(PARSE_INFO_PROPERTY(NM_SETTING_WIMAX_MAC_ADDRESS,
                                                  .parser = mac_address_parser_ETHER, ), ), ),
};

static void
_parse_info_find(NMSetting                *setting,
                 const char               *property_name,
                 const NMMetaSettingInfo **out_setting_info,
                 const ParseInfoSetting  **out_parse_info_setting,
                 const ParseInfoProperty **out_parse_info_property)
{
    const NMMetaSettingInfo *setting_info;
    const ParseInfoSetting  *pis;
    const ParseInfoProperty *pip;

#if NM_MORE_ASSERTS > 10
    {
        guint      i, j;
        static int asserted = FALSE;

        if (!asserted) {
            for (i = 0; i < G_N_ELEMENTS(parse_infos); i++) {
                pis = parse_infos[i];

                if (!pis)
                    continue;
                if (!pis->properties)
                    continue;

                g_assert(pis->properties[0]);
                for (j = 0; pis->properties[j]; j++) {
                    const ParseInfoProperty *pip0;
                    const ParseInfoProperty *pipj = pis->properties[j];

                    g_assert(pipj->property_name);
                    if (j > 0 && (pip0 = pis->properties[j - 1])
                        && strcmp(pip0->property_name, pipj->property_name) >= 0) {
                        g_error("Wrong order at index #%d.%d: \"%s.%s\" before \"%s.%s\"",
                                i,
                                j - 1,
                                nm_meta_setting_infos[i].setting_name,
                                pip0->property_name,
                                nm_meta_setting_infos[i].setting_name,
                                pipj->property_name);
                    }
                }
            }
            asserted = TRUE;
        }
    }
#endif

    if (!NM_IS_SETTING(setting) || !(setting_info = NM_SETTING_GET_CLASS(setting)->setting_info)) {
        /* handle invalid setting objects gracefully. */
        NM_SET_OUT(out_setting_info, NULL);
        NM_SET_OUT(out_parse_info_setting, NULL);
        NM_SET_OUT(out_parse_info_property, NULL);
        return;
    }

    nm_assert(setting_info->setting_name);
    nm_assert(_NM_INT_NOT_NEGATIVE(setting_info->meta_type));
    nm_assert(setting_info->meta_type < G_N_ELEMENTS(parse_infos));

    pis = parse_infos[setting_info->meta_type];

    pip = NULL;
    if (pis && property_name) {
        gssize idx;

        G_STATIC_ASSERT_EXPR(G_STRUCT_OFFSET(ParseInfoProperty, property_name) == 0);

        idx = nm_ptrarray_find_bsearch((gconstpointer *) pis->properties,
                                       NM_PTRARRAY_LEN(pis->properties),
                                       &property_name,
                                       nm_strcmp_p_with_data,
                                       NULL);
        if (idx >= 0)
            pip = pis->properties[idx];
    }

    NM_SET_OUT(out_setting_info, setting_info);
    NM_SET_OUT(out_parse_info_setting, pis);
    NM_SET_OUT(out_parse_info_property, pip);
}

/*****************************************************************************/

static void
read_one_setting_value(KeyfileReaderInfo        *info,
                       NMSetting                *setting,
                       const NMSettInfoProperty *property_info)
{
    GKeyFile                *keyfile = info->keyfile;
    gs_free_error GError    *err     = NULL;
    const NMMetaSettingInfo *setting_info;
    const ParseInfoProperty *pip;
    gs_free char            *tmp_str = NULL;
    const char              *key;
    GType                    type;
    guint64                  u64;
    gint64                   i64;

    nm_assert(!info->error);
    nm_assert(!property_info->param_spec
              || nm_streq(property_info->param_spec->name, property_info->name));

    key = property_info->name;

    _parse_info_find(setting, key, &setting_info, NULL, &pip);

    nm_assert(setting_info);

    if (!pip) {
        if (nm_streq(key, NM_SETTING_NAME))
            return;
        if (!property_info->param_spec)
            return;
        if ((property_info->param_spec->flags & (G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY))
            != G_PARAM_WRITABLE)
            return;
    } else {
        if (pip->parser_skip)
            return;
        if (pip->has_parser_full) {
            pip->parser_full(info, setting_info, property_info, pip, setting);
            return;
        }
    }

    nm_assert(property_info->param_spec);
    nm_assert((property_info->param_spec->flags & (G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY))
              == G_PARAM_WRITABLE);

    /* Check for the exact key in the GKeyFile if required.  Most setting
     * properties map 1:1 to a key in the GKeyFile, but for those properties
     * like IP addresses and routes where more than one value is actually
     * encoded by the setting property, this won't be true.
     */
    if ((!pip || !pip->parser_no_check_key)
        && !nm_keyfile_plugin_kf_has_key(keyfile, setting_info->setting_name, key, &err)) {
        /* Key doesn't exist or an error occurred, thus nothing to do. */
        if (err) {
            if (!read_handle_warn(info,
                                  key,
                                  key,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("error loading setting value: %s"),
                                  err->message))
                return;
        }
        return;
    }

    if (pip && pip->parser) {
        pip->parser(info, setting, key);
        return;
    }

    type = G_PARAM_SPEC_VALUE_TYPE(property_info->param_spec);

    if (type == G_TYPE_STRING) {
        gs_free char *str_val = NULL;

        str_val = nm_keyfile_plugin_kf_get_string(keyfile, setting_info->setting_name, key, &err);
        if (!err)
            nm_g_object_set_property_string_take(G_OBJECT(setting),
                                                 key,
                                                 g_steal_pointer(&str_val),
                                                 &err);
    } else if (type == G_TYPE_UINT) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            u64 = _nm_utils_ascii_str_to_uint64(tmp_str, 0, 0, G_MAXUINT, G_MAXUINT64);
            if (u64 == G_MAXUINT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_uint(G_OBJECT(setting), key, u64, &err);
        }
    } else if (type == G_TYPE_INT) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            i64 = _nm_utils_ascii_str_to_int64(tmp_str, 0, G_MININT, G_MAXINT, G_MININT64);
            if (i64 == G_MININT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_int(G_OBJECT(setting), key, i64, &err);
        }
    } else if (type == G_TYPE_BOOLEAN) {
        gboolean bool_val;

        bool_val = nm_keyfile_plugin_kf_get_boolean(keyfile, setting_info->setting_name, key, &err);
        if (!err)
            nm_g_object_set_property_boolean(G_OBJECT(setting), key, bool_val, &err);
    } else if (type == G_TYPE_CHAR) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            /* As documented by glib, G_TYPE_CHAR is really a (signed!) gint8. */
            i64 = _nm_utils_ascii_str_to_int64(tmp_str, 0, G_MININT8, G_MAXINT8, G_MININT64);
            if (i64 == G_MININT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_char(G_OBJECT(setting), key, i64, &err);
        }
    } else if (type == G_TYPE_UINT64) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            u64 = _nm_utils_ascii_str_to_uint64(tmp_str, 0, 0, G_MAXUINT64, G_MAXUINT64);
            if (u64 == G_MAXUINT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_uint64(G_OBJECT(setting), key, u64, &err);
        }
    } else if (type == G_TYPE_INT64) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            i64 = _nm_utils_ascii_str_to_int64(tmp_str, 0, G_MININT64, G_MAXINT64, G_MAXINT64);
            if (i64 == G_MAXINT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_int64(G_OBJECT(setting), key, i64, &err);
        }
    } else if (type == G_TYPE_BYTES) {
        nm_auto_unref_bytearray GByteArray *array = NULL;
        gs_unref_bytes GBytes              *bytes = NULL;
        gs_free guint                      *tmp   = NULL;
        gsize                               length;
        int                                 i;
        gboolean                            already_warned = FALSE;

        tmp = nm_keyfile_plugin_kf_get_integer_list_uint(keyfile,
                                                         setting_info->setting_name,
                                                         key,
                                                         &length,
                                                         NULL);

        array = g_byte_array_sized_new(length);
        for (i = 0; i < length; i++) {
            const guint   val = tmp[i];
            unsigned char v   = (unsigned char) (val & 0xFF);

            if (val > 255u) {
                if (!already_warned
                    && !read_handle_warn(
                        info,
                        key,
                        key,
                        NM_KEYFILE_WARN_SEVERITY_WARN,
                        _("ignoring invalid byte element '%u' (not between 0 and 255 inclusive)"),
                        val))
                    return;
                already_warned = TRUE;
            } else
                g_byte_array_append(array, (const unsigned char *) &v, sizeof(v));
        }

        bytes = g_byte_array_free_to_bytes(g_steal_pointer(&array));
        g_object_set(setting, key, bytes, NULL);
    } else if (type == G_TYPE_STRV) {
        gs_strfreev char **sa = NULL;
        gsize              length;

        sa = nm_keyfile_plugin_kf_get_string_list(keyfile,
                                                  setting_info->setting_name,
                                                  key,
                                                  &length,
                                                  NULL);
        g_object_set(setting, key, sa, NULL);
    } else if (type == G_TYPE_HASH_TABLE) {
        read_hash_of_string(info, keyfile, setting, key);
    } else if (type == G_TYPE_ARRAY) {
        read_array_of_uint(keyfile, setting, key);
    } else if (G_TYPE_IS_FLAGS(type)) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            u64 = _nm_utils_ascii_str_to_uint64(tmp_str, 0, 0, G_MAXUINT, G_MAXUINT64);
            if (u64 == G_MAXUINT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_flags(G_OBJECT(setting), key, type, u64, &err);
        }
    } else if (G_TYPE_IS_ENUM(type)) {
        tmp_str = nm_keyfile_plugin_kf_get_value(keyfile, setting_info->setting_name, key, &err);
        if (!err) {
            i64 = _nm_utils_ascii_str_to_int64(tmp_str, 0, G_MININT, G_MAXINT, G_MAXINT64);
            if (i64 == G_MAXINT64 && errno != 0) {
                g_set_error_literal(&err,
                                    G_KEY_FILE_ERROR,
                                    G_KEY_FILE_ERROR_INVALID_VALUE,
                                    _("value cannot be interpreted as integer"));
            } else
                nm_g_object_set_property_enum(G_OBJECT(setting), key, type, i64, &err);
        }
    } else
        g_return_if_reached();

    if (err) {
        if (nm_keyfile_error_is_not_found(err)) {
            /* ignore such errors. The key is not present. */
        } else {
            read_handle_warn(info,
                             key,
                             key,
                             NM_KEYFILE_WARN_SEVERITY_WARN,
                             _("invalid setting: %s"),
                             err->message);
        }
    }
}

static void
_read_handle_renamed_properties(KeyfileReaderInfo *info)
{
    GKeyFile             *kf    = info->keyfile;
    const char           *group = info->group;
    gs_free_error GError *error = NULL;

    if (NM_IN_STRSET(group, "ipv4", "ipv6")) {
        /* dhcp-send-hostname is stored as dhcp-send-hostname-deprecated
         * dhcp-send-hostname-v2 is stored as dhcp-send-hostname
         * Do the conversion back. Also, accept boolean values for -v2 to
         * maintain backwards compatibility with keyfiles written with the
         * deprecated property in mind
         */
        if (g_key_file_has_key(kf, group, "dhcp-send-hostname", NULL)) {
            gboolean val_bool;
            int      val;

            val = g_key_file_get_integer(kf, group, "dhcp-send-hostname", &error);
            if (error) {
                g_clear_error(&error);
                val_bool = g_key_file_get_boolean(kf, group, "dhcp-send-hostname", &error);
                if (!error)
                    val = val_bool ? 1 : 0;
                else
                    read_handle_warn(info,
                                     NULL,
                                     NULL,
                                     NM_KEYFILE_WARN_SEVERITY_WARN,
                                     _("invalid value for '%s.dhcp-send-hostname'"),
                                     info->group);
            }

            g_key_file_remove_key(kf, group, "dhcp-send-hostname", NULL);
            if (!error)
                g_key_file_set_integer(kf, group, "dhcp-send-hostname-v2", val);
        }

        if (g_key_file_has_key(kf, group, "dhcp-send-hostname-deprecated", NULL)) {
            gs_free char *val = NULL;

            val = g_key_file_get_value(kf, group, "dhcp-send-hostname-deprecated", NULL);
            g_key_file_remove_key(kf, group, "dhcp-send-hostname-deprecated", NULL);
            if (val)
                g_key_file_set_value(kf, group, "dhcp-send-hostname", val);
            else
                read_handle_warn(info,
                                 NULL,
                                 NULL,
                                 NM_KEYFILE_WARN_SEVERITY_WARN,
                                 _("invalid value for '%s.dhcp-send-hostname-deprecated'"),
                                 info->group);
        }
    }
}

static void
_read_setting(KeyfileReaderInfo *info)
{
    const NMSettInfoSetting   *sett_info;
    gs_unref_object NMSetting *setting = NULL;
    const char                *alias;
    GType                      type;
    guint16                    i;

    alias = nm_keyfile_plugin_get_setting_name_for_alias(info->group);
    if (!alias)
        alias = info->group;

    type = nm_setting_lookup_type(alias);
    if (!type) {
        read_handle_warn(info,
                         NULL,
                         NULL,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("invalid setting name '%s'"),
                         info->group);
        return;
    }

    setting = g_object_new(type, NULL);

    info->setting = setting;

    _read_handle_renamed_properties(info);

    sett_info = _nm_setting_class_get_sett_info(NM_SETTING_GET_CLASS(setting));

    if (sett_info->detail.gendata_info) {
        gs_free char **keys = NULL;
        gsize          k, n_keys;

        keys = g_key_file_get_keys(info->keyfile, info->group, &n_keys, NULL);
        if (!keys)
            n_keys = 0;
        if (n_keys > 0) {
            GHashTable *h = _nm_setting_option_hash(setting, TRUE);

            nm_strv_sort(keys, n_keys);
            for (k = 0; k < n_keys; k++) {
                gs_free char         *key   = keys[k];
                gs_free_error GError *local = NULL;
                const GVariantType   *variant_type;
                GVariant             *variant;

                /* a GKeyFile can return duplicate keys, there is just no API to make sense
                 * of them. Skip them. */
                if (k + 1 < n_keys && nm_streq(key, keys[k + 1]))
                    continue;

                /* currently, the API is very simple. The setting class just returns
                 * the desired variant type, and keyfile reader will try to parse
                 * it accordingly. Note, that this does currently not allow, that
                 * a particular key can contain different variant types, nor is it
                 * very flexible in general.
                 *
                 * We add flexibility when we need it. Keep it simple for now. */
                variant_type =
                    sett_info->detail.gendata_info->get_variant_type(sett_info, key, &local);
                if (!variant_type) {
                    if (!read_handle_warn(info,
                                          key,
                                          NULL,
                                          NM_KEYFILE_WARN_SEVERITY_WARN,
                                          _("invalid key '%s.%s'"),
                                          info->group,
                                          key))
                        break;
                    continue;
                }

                if (g_variant_type_equal(variant_type, G_VARIANT_TYPE_BOOLEAN)) {
                    gboolean v;

                    v = g_key_file_get_boolean(info->keyfile, info->group, key, &local);
                    if (local) {
                        if (!read_handle_warn(info,
                                              key,
                                              key,
                                              NM_KEYFILE_WARN_SEVERITY_WARN,
                                              _("key '%s.%s' is not boolean"),
                                              info->group,
                                              key))
                            break;
                        continue;
                    }
                    variant = g_variant_new_boolean(v);
                } else if (g_variant_type_equal(variant_type, G_VARIANT_TYPE_UINT32)) {
                    guint64 v;

                    v = g_key_file_get_uint64(info->keyfile, info->group, key, &local);

                    if (local) {
                        if (!read_handle_warn(info,
                                              key,
                                              key,
                                              NM_KEYFILE_WARN_SEVERITY_WARN,
                                              _("key '%s.%s' is not a uint32"),
                                              info->group,
                                              key))
                            break;
                        continue;
                    }
                    variant = g_variant_new_uint32((guint32) v);
                } else {
                    nm_assert_not_reached();
                    continue;
                }

                g_hash_table_insert(h, g_steal_pointer(&key), g_variant_take_ref(variant));
            }
            for (; k < n_keys; k++)
                g_free(keys[k]);
        }
    }

    for (i = 0; i < sett_info->property_infos_len; i++) {
        read_one_setting_value(info, setting, &sett_info->property_infos[i]);
        if (info->error)
            goto out;
    }

out:
    info->setting = NULL;
    if (!info->error)
        nm_connection_add_setting(info->connection, g_steal_pointer(&setting));
}

static void
_read_setting_wireguard_peer(KeyfileReaderInfo *info)
{
    gs_unref_object NMSettingWireGuard   *s_wg_new = NULL;
    nm_auto_unref_wgpeer NMWireGuardPeer *peer     = NULL;
    gs_free_error GError                 *error    = NULL;
    NMSettingWireGuard                   *s_wg;
    gs_free char                         *str  = NULL;
    const char                           *cstr = NULL;
    const char                           *key;
    gint64                                i64;
    gs_strfreev char                    **sa = NULL;
    gsize                                 n_sa;

    peer = nm_wireguard_peer_new();

    nm_assert(g_str_has_prefix(info->group, NM_KEYFILE_GROUPPREFIX_WIREGUARD_PEER));
    cstr = &info->group[NM_STRLEN(NM_KEYFILE_GROUPPREFIX_WIREGUARD_PEER)];
    if (!nm_utils_base64secret_normalize(cstr, NM_WIREGUARD_PUBLIC_KEY_LEN, &str)
        || !nm_streq0(str, cstr)) {
        /* the group name must be identical to the normalized(!) key, so that it
         * is uniquely identified. */
        read_handle_warn(info,
                         NULL,
                         NM_SETTING_WIREGUARD_PEERS,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("invalid peer public key in section '%s'"),
                         info->group);
        return;
    }
    nm_wireguard_peer_set_public_key(peer, cstr, TRUE);
    nm_clear_g_free(&str);

    key = NM_WIREGUARD_PEER_ATTR_PRESHARED_KEY;
    str = nm_keyfile_plugin_kf_get_string(info->keyfile, info->group, key, NULL);
    if (str) {
        if (!nm_wireguard_peer_set_preshared_key(peer, str, FALSE)) {
            if (!read_handle_warn(info,
                                  key,
                                  NM_SETTING_WIREGUARD_PEERS,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("key '%s.%s' is not a valid 256 bit key in base64 encoding"),
                                  info->group,
                                  key))
                return;
        }
        nm_clear_g_free(&str);
    }

    key = NM_WIREGUARD_PEER_ATTR_PRESHARED_KEY_FLAGS;
    i64 = nm_keyfile_plugin_kf_get_int64(info->keyfile,
                                         info->group,
                                         key,
                                         0,
                                         0,
                                         NM_SETTING_SECRET_FLAG_ALL,
                                         -1,
                                         NULL);
    if (errno != ENODATA) {
        if (i64 == -1 || !_nm_setting_secret_flags_valid(i64)) {
            if (!read_handle_warn(info,
                                  key,
                                  NM_SETTING_WIREGUARD_PEERS,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("key '%s.%s' is not a valid secret flag"),
                                  info->group,
                                  key))
                return;
        } else
            nm_wireguard_peer_set_preshared_key_flags(peer, i64);
    }

    key = NM_WIREGUARD_PEER_ATTR_PERSISTENT_KEEPALIVE;
    i64 = nm_keyfile_plugin_kf_get_int64(info->keyfile,
                                         info->group,
                                         key,
                                         0,
                                         0,
                                         G_MAXUINT32,
                                         -1,
                                         NULL);
    if (errno != ENODATA) {
        if (i64 == -1) {
            if (!read_handle_warn(info,
                                  key,
                                  NM_SETTING_WIREGUARD_PEERS,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("key '%s.%s' is not a integer in range 0 to 2^32"),
                                  info->group,
                                  key))
                return;
        } else
            nm_wireguard_peer_set_persistent_keepalive(peer, i64);
    }

    key = NM_WIREGUARD_PEER_ATTR_ENDPOINT;
    str = nm_keyfile_plugin_kf_get_string(info->keyfile, info->group, key, NULL);
    if (str && str[0]) {
        if (!nm_wireguard_peer_set_endpoint(peer, str, FALSE)) {
            if (!read_handle_warn(info,
                                  key,
                                  NM_SETTING_WIREGUARD_PEERS,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("key '%s.%s' is not a valid endpoint"),
                                  info->group,
                                  key))
                return;
        }
    }
    nm_clear_g_free(&str);

    key = NM_WIREGUARD_PEER_ATTR_ALLOWED_IPS;
    sa  = nm_keyfile_plugin_kf_get_string_list(info->keyfile, info->group, key, &n_sa, NULL);
    if (n_sa > 0) {
        gboolean has_error = FALSE;
        gsize    i;

        for (i = 0; i < n_sa; i++) {
            if (!nm_inet_parse_with_prefix_bin(AF_UNSPEC, sa[i], NULL, NULL, NULL)) {
                has_error = TRUE;
                continue;
            }
            nm_wireguard_peer_append_allowed_ip(peer, sa[i], TRUE);
        }
        if (has_error) {
            if (!read_handle_warn(info,
                                  key,
                                  NM_SETTING_WIREGUARD_PEERS,
                                  NM_KEYFILE_WARN_SEVERITY_WARN,
                                  _("key '%s.%s' has invalid allowed-ips"),
                                  info->group,
                                  key))
                return;
        }
    }

    if (info->error)
        return;

    if (!nm_wireguard_peer_is_valid(peer, TRUE, TRUE, &error)) {
        read_handle_warn(info,
                         NULL,
                         NM_SETTING_WIREGUARD_PEERS,
                         NM_KEYFILE_WARN_SEVERITY_WARN,
                         _("peer '%s' is invalid: %s"),
                         info->group,
                         error->message);
        return;
    }

    s_wg = NM_SETTING_WIREGUARD(
        nm_connection_get_setting(info->connection, NM_TYPE_SETTING_WIREGUARD));
    if (!s_wg) {
        s_wg_new = NM_SETTING_WIREGUARD(nm_setting_wireguard_new());
        s_wg     = s_wg_new;
    }

    nm_setting_wireguard_append_peer(s_wg, peer);

    if (s_wg_new) {
        nm_connection_add_setting(info->connection, NM_SETTING(g_steal_pointer(&s_wg_new)));
    }
}

static void
_read_setting_vpn_secrets(KeyfileReaderInfo *info)
{
    gs_strfreev char **keys = NULL;
    gsize              i, n_keys;
    NMSettingVpn      *s_vpn;

    s_vpn = nm_connection_get_setting_vpn(info->connection);
    if (!s_vpn) {
        /* if we don't also have a [vpn] section (which must be parsed earlier),
         * we don't do anything. */
        nm_assert(!g_key_file_has_group(info->keyfile, "vpn"));
        return;
    }

    keys =
        nm_keyfile_plugin_kf_get_keys(info->keyfile, NM_KEYFILE_GROUP_VPN_SECRETS, &n_keys, NULL);
    for (i = 0; i < n_keys; i++) {
        gs_free char *secret = NULL;

        secret = nm_keyfile_plugin_kf_get_string(info->keyfile,
                                                 NM_KEYFILE_GROUP_VPN_SECRETS,
                                                 keys[i],
                                                 NULL);
        if (secret)
            nm_setting_vpn_add_secret(s_vpn, keys[i], secret);
    }
}

gboolean
nm_keyfile_read_ensure_id(NMConnection *connection, const char *fallback_id)
{
    NMSettingConnection *s_con;

    g_return_val_if_fail(NM_IS_CONNECTION(connection), FALSE);
    g_return_val_if_fail(fallback_id, FALSE);

    s_con = nm_connection_get_setting_connection(connection);
    g_return_val_if_fail(NM_IS_SETTING_CONNECTION(s_con), FALSE);

    if (nm_setting_connection_get_id(s_con))
        return FALSE;

    g_object_set(s_con, NM_SETTING_CONNECTION_ID, fallback_id, NULL);
    return TRUE;
}

gboolean
nm_keyfile_read_ensure_uuid(NMConnection *connection, const char *fallback_uuid_seed)
{
    NMSettingConnection *s_con;
    gs_free char        *hashed_uuid = NULL;

    g_return_val_if_fail(NM_IS_CONNECTION(connection), FALSE);
    g_return_val_if_fail(fallback_uuid_seed, FALSE);

    s_con = nm_connection_get_setting_connection(connection);
    g_return_val_if_fail(NM_IS_SETTING_CONNECTION(s_con), FALSE);

    if (nm_setting_connection_get_uuid(s_con))
        return FALSE;

    hashed_uuid = nm_uuid_generate_from_strings_old("keyfile", fallback_uuid_seed);
    g_object_set(s_con, NM_SETTING_CONNECTION_UUID, hashed_uuid, NULL);
    return TRUE;
}

/**
 * nm_keyfile_read:
 * @keyfile: the keyfile from which to create the connection
 * @base_dir: when reading certificates from files with relative name,
 *   the relative path is made absolute using @base_dir. This must
 *   be an absolute path.
 * @handler_flags: the #NMKeyfileHandlerFlags.
 * @handler: (nullable) (scope call): read handler
 * @user_data: user data for read handler
 * @error: error
 *
 * Tries to create a NMConnection from a keyfile. The resulting keyfile is
 * not normalized and might not even verify.
 *
 * Returns: (transfer full): on success, returns the created connection.
 *
 * Since: 1.30
 */
NMConnection *
nm_keyfile_read(GKeyFile             *keyfile,
                const char           *base_dir,
                NMKeyfileHandlerFlags handler_flags,
                NMKeyfileReadHandler  handler,
                void                 *user_data,
                GError              **error)
{
    gs_unref_object NMConnection *connection = NULL;
    NMSettingConnection          *s_con;
    gs_strfreev char            **groups = NULL;
    gsize                         n_groups;
    gsize                         i;
    gboolean                      vpn_secrets = FALSE;
    KeyfileReaderInfo             info;

    g_return_val_if_fail(keyfile, NULL);
    g_return_val_if_fail(!error || !*error, NULL);
    g_return_val_if_fail(base_dir && base_dir[0] == '/', NULL);
    g_return_val_if_fail(handler_flags == NM_KEYFILE_HANDLER_FLAGS_NONE, NULL);

    connection = nm_simple_connection_new();

    info = (KeyfileReaderInfo) {
        .connection   = connection,
        .keyfile      = keyfile,
        .base_dir     = base_dir,
        .read_handler = handler,
        .user_data    = user_data,
    };

    groups = g_key_file_get_groups(keyfile, &n_groups);
    if (!groups)
        n_groups = 0;

    for (i = 0; i < n_groups; i++) {
        info.group = groups[i];

        if (nm_streq(groups[i], NM_KEYFILE_GROUP_VPN_SECRETS)) {
            /* Only read out secrets when needed */
            vpn_secrets = TRUE;
        } else if (NM_STR_HAS_PREFIX(groups[i], NM_KEYFILE_GROUPPREFIX_WIREGUARD_PEER))
            _read_setting_wireguard_peer(&info);
        else if (NM_IN_STRSET(groups[i],
                              NM_KEYFILE_GROUP_NMMETA,
                              ETHERNET_S390_OPTIONS_GROUP_NAME)) {
            /* pass */
        } else
            _read_setting(&info);

        info.group = NULL;

        if (info.error)
            goto out_with_info_error;
    }

    s_con = _nm_connection_ensure_setting(connection, NM_TYPE_SETTING_CONNECTION);

    /* Make sure that we have 'interface-name' even if it was specified in the
     * "wrong" (ie, deprecated) group.
     */
    if (!nm_setting_connection_get_interface_name(s_con)
        && nm_setting_connection_get_connection_type(s_con)) {
        gs_free char *interface_name = NULL;

        interface_name = g_key_file_get_string(keyfile,
                                               nm_setting_connection_get_connection_type(s_con),
                                               "interface-name",
                                               NULL);
        if (interface_name)
            g_object_set(s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, interface_name, NULL);
    }

    if (vpn_secrets) {
        info.group = NM_KEYFILE_GROUP_VPN_SECRETS;
        _read_setting_vpn_secrets(&info);
        info.group = NULL;
        if (info.error)
            goto out_with_info_error;
    }

    return g_steal_pointer(&connection);

out_with_info_error:
    g_propagate_error(error, info.error);
    return NULL;
}

/*****************************************************************************/

static void
write_setting_value(KeyfileWriterInfo        *info,
                    NMSetting                *setting,
                    const NMSettInfoProperty *property_info)
{
    const NMMetaSettingInfo *setting_info;
    const ParseInfoProperty *pip;
    const char              *key;
    char                     numstr[64];
    GValue                   value;
    GType                    type;

    nm_assert(!info->error);
    nm_assert(!property_info->param_spec
              || nm_streq(property_info->param_spec->name, property_info->name));

    key = property_info->name;

    _parse_info_find(setting, key, &setting_info, NULL, &pip);

    if (pip && pip->has_writer_full) {
        pip->writer_full(info, setting_info, property_info, pip, setting);
        return;
    }

    if (pip && pip->writer_skip)
        return;

    if (!pip) {
        if (!setting_info) {
            /* the setting type is unknown. Handle this gracefully by
             * ignoring the setting. */
            return;
        }
        if (!property_info->param_spec)
            return;
        if (nm_streq(key, NM_SETTING_NAME))
            return;
    }

    nm_assert(property_info->param_spec);

    /* Don't write secrets that are owned by user secret agents or aren't
     * supposed to be saved.  VPN secrets are handled specially though since
     * the secret flags there are in a third-level hash in the 'secrets'
     * property.
     */
    if ((property_info->param_spec->flags & NM_SETTING_PARAM_SECRET)
        && !NM_IS_SETTING_VPN(setting)) {
        NMSettingSecretFlags secret_flags = NM_SETTING_SECRET_FLAG_NONE;

        if (!nm_setting_get_secret_flags(setting, key, &secret_flags, NULL))
            g_return_if_reached();
        if (!_secret_flags_persist_secret(secret_flags))
            return;
    }

    /* Don't write offensive terms that are already deprecated as the new inclusive terms
     * are being written.
     */
    if (NM_IN_STRSET(key,
                     NM_SETTING_CONNECTION_AUTOCONNECT_SLAVES,
                     NM_SETTING_CONNECTION_MASTER,
                     NM_SETTING_CONNECTION_SLAVE_TYPE,
                     NM_SETTING_WIRED_MAC_ADDRESS_BLACKLIST))
        return;

    value = (GValue) {0};

    g_value_init(&value, G_PARAM_SPEC_VALUE_TYPE(property_info->param_spec));
    g_object_get_property(G_OBJECT(setting), property_info->param_spec->name, &value);

    /* To prevent any confusion from the user regarding the v2 suffix,
     * dhcp-send-hostname is stored as dhcp-send-hostname-deprecated
     * and dhcp-send-hostname-v2 is stored as dhcp-send-hostname
     * in the keyfile.
     */
    if (NM_IS_SETTING_IP4_CONFIG(setting) || NM_IS_SETTING_IP6_CONFIG(setting)) {
        if (nm_streq(key, NM_SETTING_IP_CONFIG_DHCP_SEND_HOSTNAME_V2))
            key = "dhcp-send-hostname";
        else if (nm_streq(key, NM_SETTING_IP_CONFIG_DHCP_SEND_HOSTNAME))
            key = "dhcp-send-hostname-deprecated";
    }

    if ((!pip || !pip->writer_persist_default)
        && g_param_value_defaults(property_info->param_spec, &value)) {
        nm_assert(!g_key_file_has_key(info->keyfile, setting_info->setting_name, key, NULL));
        goto out_unset_value;
    }

    if (pip && pip->writer) {
        pip->writer(info, setting, key, &value);
        goto out_unset_value;
    }

    type = G_VALUE_TYPE(&value);
    if (type == G_TYPE_STRING) {
        const char *str;

        str = g_value_get_string(&value);
        if (str)
            nm_keyfile_plugin_kf_set_string(info->keyfile, setting_info->setting_name, key, str);
    } else if (type == G_TYPE_UINT) {
        nm_sprintf_buf(numstr, "%u", g_value_get_uint(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else if (type == G_TYPE_INT) {
        nm_sprintf_buf(numstr, "%d", g_value_get_int(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else if (type == G_TYPE_UINT64) {
        nm_sprintf_buf(numstr, "%" G_GUINT64_FORMAT, g_value_get_uint64(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else if (type == G_TYPE_INT64) {
        nm_sprintf_buf(numstr, "%" G_GINT64_FORMAT, g_value_get_int64(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else if (type == G_TYPE_BOOLEAN) {
        nm_keyfile_plugin_kf_set_value(info->keyfile,
                                       setting_info->setting_name,
                                       key,
                                       g_value_get_boolean(&value) ? "true" : "false");
    } else if (type == G_TYPE_CHAR) {
        nm_sprintf_buf(numstr, "%d", (int) g_value_get_schar(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else if (type == G_TYPE_BYTES) {
        GBytes       *bytes;
        const guint8 *data;
        gsize         len = 0;

        bytes = g_value_get_boxed(&value);
        data  = bytes ? g_bytes_get_data(bytes, &len) : NULL;

        if (data != NULL && len > 0)
            nm_keyfile_plugin_kf_set_integer_list_uint8(info->keyfile,
                                                        setting_info->setting_name,
                                                        key,
                                                        data,
                                                        len);
    } else if (type == G_TYPE_STRV) {
        char **array;

        array = (char **) g_value_get_boxed(&value);
        if ((g_strv_length(array) != 0) || (pip && pip->always_write)) {
            nm_keyfile_plugin_kf_set_string_list(info->keyfile,
                                                 setting_info->setting_name,
                                                 key,
                                                 (const char **const) array,
                                                 g_strv_length(array));
        }
    } else if (type == G_TYPE_HASH_TABLE) {
        write_hash_of_string(info->keyfile, setting, key, &value);
    } else if (type == G_TYPE_ARRAY) {
        write_array_of_uint(info->keyfile, setting, key, &value);
    } else if (G_VALUE_HOLDS_FLAGS(&value)) {
        nm_sprintf_buf(numstr, "%u", g_value_get_flags(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else if (G_VALUE_HOLDS_ENUM(&value)) {
        nm_sprintf_buf(numstr, "%d", g_value_get_enum(&value));
        nm_keyfile_plugin_kf_set_value(info->keyfile, setting_info->setting_name, key, numstr);
    } else
        g_return_if_reached();

out_unset_value:
    g_value_unset(&value);
}

static void
_write_setting_wireguard(NMSetting *setting, KeyfileWriterInfo *info)
{
    NMSettingWireGuard *s_wg;
    guint               i_peer, n_peers;

    s_wg = NM_SETTING_WIREGUARD(setting);

    n_peers = nm_setting_wireguard_get_peers_len(s_wg);
    for (i_peer = 0; i_peer < n_peers; i_peer++) {
        NMWireGuardPeer     *peer = nm_setting_wireguard_get_peer(s_wg, i_peer);
        const char          *public_key;
        char                 group[NM_STRLEN(NM_KEYFILE_GROUPPREFIX_WIREGUARD_PEER) + 200];
        NMSettingSecretFlags secret_flags;
        gboolean             any_key = FALSE;
        guint                i_aip, n_aip;
        const char          *cstr;
        guint32              u32;

        public_key = nm_wireguard_peer_get_public_key(peer);
        if (!public_key || !public_key[0]
            || !NM_STRCHAR_ALL(public_key, ch, nm_unbase64char(ch) != -EINVAL)) {
            /* invalid peer. Skip it */
            continue;
        }

        if (g_snprintf(group,
                       sizeof(group),
                       "%s%s",
                       NM_KEYFILE_GROUPPREFIX_WIREGUARD_PEER,
                       nm_wireguard_peer_get_public_key(peer))
            >= sizeof(group)) {
            /* Too long. Not a valid public key. Skip the peer. */
            continue;
        }

        cstr = nm_wireguard_peer_get_endpoint(peer);
        if (cstr) {
            g_key_file_set_string(info->keyfile, group, NM_WIREGUARD_PEER_ATTR_ENDPOINT, cstr);
            any_key = TRUE;
        }

        secret_flags = nm_wireguard_peer_get_preshared_key_flags(peer);
        if (_secret_flags_persist_secret(secret_flags)) {
            cstr = nm_wireguard_peer_get_preshared_key(peer);
            if (cstr) {
                g_key_file_set_string(info->keyfile,
                                      group,
                                      NM_WIREGUARD_PEER_ATTR_PRESHARED_KEY,
                                      cstr);
                any_key = TRUE;
            }
        }

        /* usually, we don't persist the secret-flags 0 (because they are the default).
         * For WireGuard peers, the default secret-flags for preshared-key are 4 (not-required).
         * So, in this case behave differently: a missing preshared-key-flag setting means
         * "not-required". */
        if (secret_flags != NM_SETTING_SECRET_FLAG_NOT_REQUIRED) {
            g_key_file_set_int64(info->keyfile,
                                 group,
                                 NM_WIREGUARD_PEER_ATTR_PRESHARED_KEY_FLAGS,
                                 secret_flags);
            any_key = TRUE;
        }

        u32 = nm_wireguard_peer_get_persistent_keepalive(peer);
        if (u32) {
            g_key_file_set_uint64(info->keyfile,
                                  group,
                                  NM_WIREGUARD_PEER_ATTR_PERSISTENT_KEEPALIVE,
                                  u32);
            any_key = TRUE;
        }

        n_aip = nm_wireguard_peer_get_allowed_ips_len(peer);
        if (n_aip > 0) {
            gs_free const char **strv = NULL;

            strv = g_new(const char *, ((gsize) n_aip) + 1);
            for (i_aip = 0; i_aip < n_aip; i_aip++)
                strv[i_aip] = nm_wireguard_peer_get_allowed_ip(peer, i_aip, NULL);
            strv[n_aip] = NULL;
            g_key_file_set_string_list(info->keyfile,
                                       group,
                                       NM_WIREGUARD_PEER_ATTR_ALLOWED_IPS,
                                       strv,
                                       n_aip);
            any_key = TRUE;
        }

        if (!any_key) {
            /* we cannot omit all keys. At an empty endpoint. */
            g_key_file_set_string(info->keyfile, group, NM_WIREGUARD_PEER_ATTR_ENDPOINT, "");
        }
    }
}

/**
 * nm_keyfile_write:
 * @connection: the #NMConnection to persist to keyfile.
 * @handler_flags: the #NMKeyfileHandlerFlags.
 * @handler: (nullable) (scope call): optional handler for events and
 *   to override the default behavior.
 * @user_data: argument for @handler.
 * @error: the #GError in case writing fails.
 *
 * @connection should verify as a valid profile according to
 * nm_connection_verify(). If it does not verify, the keyfile may
 * be incomplete and the parser may not be able to fully recreate
 * the original profile.
 *
 * Returns: (transfer full): a new #GKeyFile or %NULL on error.
 *
 * Since: 1.30
 */
GKeyFile *
nm_keyfile_write(NMConnection         *connection,
                 NMKeyfileHandlerFlags handler_flags,
                 NMKeyfileWriteHandler handler,
                 void                 *user_data,
                 GError              **error)
{
    nm_auto_unref_keyfile GKeyFile *keyfile = NULL;
    KeyfileWriterInfo               info;
    NMSetting                     **settings;
    int                             i;
    guint16                         j;

    g_return_val_if_fail(NM_IS_CONNECTION(connection), NULL);
    g_return_val_if_fail(!error || !*error, NULL);
    g_return_val_if_fail(handler_flags == NM_KEYFILE_HANDLER_FLAGS_NONE, NULL);

    keyfile = g_key_file_new();

    info = (KeyfileWriterInfo) {
        .connection    = connection,
        .keyfile       = keyfile,
        .error         = NULL,
        .write_handler = handler,
        .user_data     = user_data,
    };

    settings = _nm_connection_get_settings_arr(connection);
    for (i = 0; i < (int) _NM_META_SETTING_TYPE_NUM; i++) {
        NMSetting               *setting = settings[nm_meta_setting_types_by_priority[i]];
        const NMSettInfoSetting *sett_info;
        const char              *setting_name;
        const char              *setting_alias;

        if (!setting)
            continue;

        sett_info = _nm_setting_class_get_sett_info(NM_SETTING_GET_CLASS(setting));

        setting_name = sett_info->setting_class->setting_info->setting_name;

        if (sett_info->detail.gendata_info) {
            guint              k, n_keys;
            const char *const *keys;

            nm_assert(!nm_keyfile_plugin_get_alias_for_setting_name(
                sett_info->setting_class->setting_info->setting_name));

            n_keys = _nm_setting_option_get_all(setting, &keys, NULL);

            if (n_keys > 0) {
                GHashTable *h = _nm_setting_option_hash(setting, FALSE);

                for (k = 0; k < n_keys; k++) {
                    const char *key = keys[k];
                    GVariant   *v;

                    v = g_hash_table_lookup(h, key);

                    if (g_variant_is_of_type(v, G_VARIANT_TYPE_BOOLEAN)) {
                        g_key_file_set_boolean(info.keyfile,
                                               setting_name,
                                               key,
                                               g_variant_get_boolean(v));
                    } else if (g_variant_is_of_type(v, G_VARIANT_TYPE_UINT32)) {
                        g_key_file_set_uint64(info.keyfile,
                                              setting_name,
                                              key,
                                              (guint64) g_variant_get_uint32(v));
                    } else {
                        if (!write_handle_warn(&info,
                                               setting,
                                               NULL,
                                               key,
                                               NM_KEYFILE_WARN_SEVERITY_WARN,
                                               _("unsupported option \"%s.%s\" of variant type %s"),
                                               setting_name,
                                               key,
                                               g_variant_get_type_string(v)))
                            goto out_with_info_error;
                        continue;
                    }
                }
            }
        }

        for (j = 0; j < sett_info->property_infos_len; j++) {
            const NMSettInfoProperty *property_info =
                _nm_sett_info_property_info_get_sorted(sett_info, j);

            write_setting_value(&info, setting, property_info);
            if (info.error)
                goto out_with_info_error;
        }

        setting_alias = nm_keyfile_plugin_get_alias_for_setting_name(setting_name);
        if ((setting_alias && g_key_file_has_group(info.keyfile, setting_alias))
            || g_key_file_has_group(info.keyfile, setting_name)) {
            /* we have a section for the setting. Nothing to do. */
        } else {
            nm_keyfile_add_group(info.keyfile, setting_alias ?: setting_name);
        }

        if (NM_IS_SETTING_WIREGUARD(setting)) {
            _write_setting_wireguard(setting, &info);
            if (info.error)
                goto out_with_info_error;
        }

        nm_assert(!info.error);
    }

    nm_assert(!info.error);

    return g_steal_pointer(&keyfile);

out_with_info_error:
    g_propagate_error(error, info.error);
    return NULL;
}

/*****************************************************************************/

static const char temp_letters[] = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";

/*
 * Check '.[a-zA-Z0-9]{6}' file suffix used for temporary files by g_file_set_contents() (mkstemp()).
 */
static gboolean
check_mkstemp_suffix(const char *path)
{
    const char *ptr;

    nm_assert(path);

    /* Matches *.[a-zA-Z0-9]{6} suffix of mkstemp()'s temporary files */
    ptr = strrchr(path, '.');
    if (ptr && strspn(&ptr[1], temp_letters) == 6 && ptr[7] == '\0')
        return TRUE;
    return FALSE;
}

#define SWP_TAG  ".swp"
#define SWPX_TAG ".swpx"
#define PEM_TAG  ".pem"
#define DER_TAG  ".der"

gboolean
nm_keyfile_utils_ignore_filename(const char *filename, gboolean require_extension)
{
    const char *base;
    gsize       l;

    /* ignore_filename() must mirror nm_keyfile_utils_create_filename() */

    g_return_val_if_fail(filename, TRUE);

    base = strrchr(filename, '/');
    if (base)
        base++;
    else
        base = filename;

    if (!base[0]) {
        /* this check above with strrchr() also rejects "/some/path/with/trailing/slash/",
         * but that is fine, because such a path would name a directory, and we are not
         * interested in directories. */
        return TRUE;
    }

    if (base[0] == '.') {
        /* don't allow hidden files */
        return TRUE;
    }

    if (require_extension) {
        if (!NM_STR_HAS_SUFFIX_WITH_MORE(base, NM_KEYFILE_PATH_SUFFIX_NMCONNECTION))
            return TRUE;
        return FALSE;
    }

    l = strlen(base);

    /* Ignore backup files */
    if (base[l - 1] == '~')
        return TRUE;

    /* Ignore temporary files
     *
     * This check is also important to ignore .nmload files (see
     * %NM_KEYFILE_PATH_SUFFIX_NMMETA). */
    if (check_mkstemp_suffix(base))
        return TRUE;

    /* Ignore 802.1x certificates and keys */
    if (NM_STR_HAS_SUFFIX_ASCII_CASE_WITH_MORE(base, PEM_TAG)
        || NM_STR_HAS_SUFFIX_ASCII_CASE_WITH_MORE(base, DER_TAG))
        return TRUE;

    return FALSE;
}

char *
nm_keyfile_utils_create_filename(const char *name, gboolean with_extension)
{
    /* keyfile used to escape with '*', do not change that behavior.
     *
     * But for newly added escapings, use '_' instead.
     * Also, @with_extension is new-style. */
    const char ESCAPE_CHAR  = with_extension ? '_' : '*';
    const char ESCAPE_CHAR2 = '_';
    NMStrBuf   str;
    char      *p;
    gsize      len;
    gsize      i;

    g_return_val_if_fail(name && name[0], NULL);

    str = NM_STR_BUF_INIT(0, FALSE);

    len = strlen(name);

    p = nm_str_buf_append_len0(&str, name, len);

    /* Convert '/' to ESCAPE_CHAR */
    for (i = 0; i < len; i++) {
        if (p[i] == '/')
            p[i] = ESCAPE_CHAR;
    }

    /* nm_keyfile_utils_create_filename() must avoid anything that ignore_filename() would reject.
     * We can escape here more aggressively then what we would read back. */
    if (p[0] == '.')
        p[0] = ESCAPE_CHAR2;
    if (p[str.len - 1] == '~')
        p[str.len - 1] = ESCAPE_CHAR2;

    if (check_mkstemp_suffix(p) || NM_STR_HAS_SUFFIX_ASCII_CASE_WITH_MORE(p, PEM_TAG)
        || NM_STR_HAS_SUFFIX_ASCII_CASE_WITH_MORE(p, DER_TAG))
        nm_str_buf_append_c(&str, ESCAPE_CHAR2);

    if (with_extension)
        nm_str_buf_append(&str, NM_KEYFILE_PATH_SUFFIX_NMCONNECTION);

    p = nm_str_buf_finalize(&str, NULL);

    /* nm_keyfile_utils_create_filename() must mirror ignore_filename() */
    nm_assert(!strchr(p, '/'));
    nm_assert(!nm_keyfile_utils_ignore_filename(p, with_extension));

    return p;
}

/*****************************************************************************/

/**
 * nm_keyfile_handler_data_fail_with_error:
 * @handler_data: the #NMKeyfileHandlerData
 * @src: (transfer full): error to move into the return location
 *
 * Set the error for the handler. This lets the operation fail
 * with the provided error. You may only set the error once.
 *
 * @src must be non-%NULL.
 *
 * Note that @src is no longer valid after this call. If you want
 * to keep using the same GError*, you need to set it to %NULL
 * after calling this function on it.
 *
 * Since: 1.30
 */
void
nm_keyfile_handler_data_fail_with_error(NMKeyfileHandlerData *handler_data, GError *src)
{
    g_return_if_fail(handler_data);
    g_return_if_fail(handler_data->p_error && !*handler_data->p_error);
    g_return_if_fail(src);

    *handler_data->p_error = src;
}

/**
 * nm_keyfile_handler_data_get_context:
 * @handler_data: the #NMKeyfileHandlerData for any event.
 * @out_kf_group_name: (out) (optional) (nullable) (transfer none): if the event
 *   is in the context of a keyfile group, the group name.
 * @out_kf_key_name: (out) (optional) (nullable) (transfer none): if the event
 *   is in the context of a keyfile value, the key name.
 * @out_cur_setting: (out) (optional) (nullable) (transfer none): if the event
 *   happens while handling a particular #NMSetting instance.
 * @out_cur_property_name: (out) (optional) (nullable) (transfer none): the
 *   property name if applicable.
 *
 * Get context information of the current event. This function can be called
 * on all events, but the context information may be unset.
 *
 * Since: 1.30
 */
void
nm_keyfile_handler_data_get_context(const NMKeyfileHandlerData *handler_data,
                                    const char                **out_kf_group_name,
                                    const char                **out_kf_key_name,
                                    NMSetting                 **out_cur_setting,
                                    const char                **out_cur_property_name)
{
    g_return_if_fail(handler_data);

    NM_SET_OUT(out_kf_group_name, handler_data->kf_group_name);
    NM_SET_OUT(out_kf_key_name, handler_data->kf_key);
    NM_SET_OUT(out_cur_setting, handler_data->cur_setting);
    NM_SET_OUT(out_cur_property_name, handler_data->cur_property);
}

const char *
_nm_keyfile_handler_data_warn_get_message(const NMKeyfileHandlerData *handler_data)
{
    nm_assert(handler_data);
    nm_assert(handler_data->type == NM_KEYFILE_HANDLER_TYPE_WARN);

    if (!handler_data->warn.message) {
        /* we cast the const away. @handler_data is const w.r.t. visible mutations
         * from POV of the user. Internally, we construct the message in
         * a lazy manner. It's like a mutable field in C++. */
        NM_PRAGMA_WARNING_DISABLE("-Wformat-nonliteral")
        ((NMKeyfileHandlerData *) handler_data)->warn.message =
            g_strdup_vprintf(handler_data->warn.fmt,
                             ((NMKeyfileHandlerData *) handler_data)->warn.ap);
        NM_PRAGMA_WARNING_REENABLE
    }
    return handler_data->warn.message;
}

/**
 * nm_keyfile_handler_data_warn_get:
 * @handler_data: the #NMKeyfileHandlerData for a %NM_KEYFILE_HANDLER_TYPE_WARN
 *  event.
 * @out_message: (out) (optional) (transfer none): the warning message.
 * @out_severity: (out) (optional): the #NMKeyfileWarnSeverity warning severity.
 *
 * Since: 1.30
 */
void
nm_keyfile_handler_data_warn_get(const NMKeyfileHandlerData *handler_data,
                                 const char                **out_message,
                                 NMKeyfileWarnSeverity      *out_severity)
{
    g_return_if_fail(handler_data);
    g_return_if_fail(handler_data->type == NM_KEYFILE_HANDLER_TYPE_WARN);

    NM_SET_OUT(out_message, _nm_keyfile_handler_data_warn_get_message(handler_data));
    NM_SET_OUT(out_severity, handler_data->warn.severity);
}
